Healing effect of warfarin in the course of cerulein-induced acute pancreatitis in rats

Acute pancreatitis (AP) is the most common gastrointestinal disease leading to hospitalizations and unexpected deaths. The development of AP leads to damage of the pancreatic microcirculation with a cascade of subsequent events resulting, among others, in coagulopathy. Previous research showed that anticoagulants can be important therapeutic agents. Heparin and acenocoumarol can alleviate the course of AP, as well as accelerate healing and post-inflammatory regeneration of the pancreas. The aim of this study was to determine whether warfarin, a drug with more stable effects than acenocoumarol, affects the healing and regeneration of the pancreas in the cerulein-induced AP. AP was evoked in Wistar male rats by intraperitoneal administration of cerulein. The first dose of warfarin (45, 90 or 180 μg/kg) was administered 24 hours after the first dose of cerulein and the doses of warfarin were repeated once a day in subsequent 10 days. The severity of AP was assessed immediately after the last dose of cerulein, as well as at days 1, 2, 3, 5, and 10 after AP induction. Treatment with warfarin dose-dependently increased international normalized ratio (INR) and attenuated the severity of pancreatitis in histological examination and accelerated pancreatic recovery. These effects were accompanied with a faster reduction in the AP-evoked increase in serum activity of amylase and lipase, the serum concentration of pro-inflammatory interleukin-1β, and the plasma level of D-Dimer. In addition, treatment with warfarin decreased pancreatic weight (an index of pancreatic edema) and improved pancreatic blood flow in rats with AP. The therapeutic effect was particularly pronounced after the administration of warfarin at a dose of 90 μg/kg. We conclude that treatment with warfarin accelerated regeneration of the pancreas and recovery in the course of cerulein-induced mild-edematous acute pancreatitis.

Administration of warfarin accelerates the recovery in ischemia/reperfusion-induced acute pancreatitis

Acute pancreatitis is associated with activation of coagulation and there is a close relationship between coagulation and the severity of this disease. Administration of anticoagulants such as heparin or acenocoumarol has shown to reduce the severity of acute pancreatitis and accelerate the recovery. The aim of the current study was to determine the impact of warfarin administration on the course of ischemia/reperfusion-induced acute pancreatitis. Acute pancreatitis was induced in rats by pancreatic ischemia followed by reperfusion. Vehicle (1 ml/dose) or warfarin (45, 90 or 180 μg/kg/dose in 1 ml of vehicle) were administered intragastrically once a day. The first dose of warfarin was given 24 h after the start of pancreatic reperfusion. The severity of acute pancreatitis was assessed 2, 5, 9 and 14 days after the beginning of pancreatic reperfusion. Treatment with warfarin reduces pancreatic damage and accelerates recovery in histological examination and this effect is accompanied by a faster reduction in serum activity of pancreatic digestive enzymes, lipase and amylase. In addition, warfarin led to an earlier decrease in serum concentration of pro-inflammatory interleukin-1β and plasma level of D-dimer. These effects were associated with an improvement of pancreatic blood flow. We conclude that warfarin exhibits a therapeutic effect in acute pancreatitis evoked by pancreatic ischemia followed by reperfusion.

Lactate in cardiogenic shock - current understanding and clinical implications

Adenosine triphosphate (ATP) is an essential substrate metabolite in human beings. Mitochondrial oxidative phosphorylation provides > 95% of ATP with the remainder derived from glycolysis or tricarboxylic acid cycle (TCA). In normal hearts, acetyl-CoA is synthesized from the β-oxidation of free fatty acids (FFA) and the oxidation of pyruvate. Pyruvate is synthesized from glycolysis and can be submitted either for decarboxylation to acetyl-CoA or for dehydrogenation to lactate. Moreover, pyruvate, as well as lactate, plays a key role in aerobic glucose metabolism which is highly dependent on ubiquitous regulatory mechanisms. Many recent advances in molecular biology, genetics, and physiology have revealed new insights into the metabolic flux of lactate. The initial perception characterized by increased lactate production and accumulation in peripheral tissues in anaerobic conditions has been recently contested. The paradigm of increased lactate concentration in the anaerobic setting is discussed according to contemporary reports. Nevertheless, the clinical role of lactate as a prognostic factor in cardiovascular diseases is undisturbed, especially in the field of innovative technology of left/bi ventricular-assist devices and biochips where it reassured its diagnostic and prognostic impact on the cardiovascular system.

Therapeutic effect of exogenous ghrelin in the healing of gingival ulcers is mediated by the release of endogenous growth hormone and insulin-like growth factor-1

Ghrelin, an acylated 28-amino acid polypeptide, was primary isolated from the stomach, and the stomach is a main source of circulating ghrelin. Ghrelin strongly and dose-dependently stimulates release of growth hormone from the anterior pituitary, as well as increases food intake and fat deposition. Previous studies showed that ghrelin exhibits protective and therapeutic effect in different parts of the gastrointestinal system, including the oral cavity. The aim of present study was to examine the role of growth hormone and insulin-like growth factor-1 (IGF-1) in the healing of gingival ulcers. Studies were performed on rats with the intact pituitary gland and hypophysectomized rats. In anesthetized rats, chronic ulcers of the gum were induced by acetic acid. Rats were treated intraperitoneally twice a day with saline or ghrelin (4, 8 or 16 nmol/kg/dose) for six days. In pituitary-intact rats, administration of ghrelin significantly increased serum concentration of growth hormone and IGF-1 and this effect was associated with a significant increase in the healing rate of gingival ulcers. Moreover, treatment with ghrelin increased mucosal blood flow and DNA synthesis in the gum, while a local inflammation was decreased what was observed as a reduction in mucosal concentration of pro-inflammatory interleukin-1β. Hypophysectomy decreased serum level of growth hormone below a detection limit; whereas serum concentration of IGF-1 was reduced by 90%. On the other hand, removal of the pituitary gland was without any significant effect on the healing rate of gingival ulcers or on the ulcer-induced increase in DNA synthesis and concentration of pro-inflammatory interleukin-1β in gingival mucosa. Administration of ghrelin failed to affect serum level of growth hormone and IGF-1 in hypophysectomized rats, and was without any effect on the healing rate of gingival ulcers, mucosal blood flow, DNA synthesis or concentration of interleukin-1β in gingival mucosa. Neither induction of gingival ulcers nor hypophysectomy nor administration of ghrelin significantly affected serum concentration of pro-inflammatory interleukin-1β. We concluded that endogenous growth hormone and IGF-1 were involved in the therapeutic effect of exogenous ghrelin in the healing of gingival mucosa damage.

Atrial natriuretic peptide and brain natriuretic peptide changes after epicardial percutaneous left atrial appendage suture ligation using LARIAT device

Percutaneous left atrial appendage closure is an alternative treatment for stroke and systemic thromboembolism risk reduction in non-valvular atrial fibrillation (AF). However, the neurohormonal impact of epicardial exclusion of the left atrial appendage (LAA) with the LARIAT procedure is unknown. Evaluation of changes in atrial natriuretic peptide (ANP) and brain natriuretic peptide (BNP) levels in AF patients underwent percutaneous LAA suture ligation. Sixty six patients underwent successfully percutaneous LAA suture ligation using LARIAT device. The level of ANP and BNP was measured before and 3 months after procedure. Mean ANP level before procedure was 249 ± 77 pg/mL (range from 95 pg/mL to 503 pg/mL) and mean BNP level was 481 ± 517 pg/mL (range from 34 pg/mL to 2508 pg/mL). Three months after procedure mean ANP level was 249 ± 79 pg/mL (range from 98 pg/mL to 492 pg/mL) and mean BNP level was 495 ± 526 pg/mL (range from 52 pg/mL to 2420 pg/mL). At 3 months follow up after percutaneous LAA suture ligation there were no significant differences in ANP and BNP levels.

Therapeutic effect of ghrelin in the course of ischemia/reperfusion-induced acute pancreatitis

BACKGROUND

Protective effect of pretreatment with ghrelin against different forms of acute pancreatitis (AP) has been recently reported. Moreover, the healing properties of this peptide have been proved in AP evoked by cerulein. However, no studies have investigated whether the administration of ghrelin affects the course of ischemia/reperfusion-induced AP.

AIM

The aim of this study was to evaluate the impact of ghrelin therapy on the course of necrotizing inflammation of the pancreas and to test its impact on peroxidation of lipids and antioxidant defense system in the acutely inflamed pancreas.

METHODS

Acute inflammation of the pancreas was triggered by pancreatic ischemia which was then followed by reperfusion of the gland. Ghrelin (8 nmol/kg/dose) was administered to intraperitoneally twice daily, 24h after the initiation of AP. The impact of ghrelin on the course of necrotizing pancreatitis was evaluated between 1 and 21 days, and involved histological, functional, and biochemical analyses.

RESULTS

Treatment with ghrelin ameliorated morphological signs of pancreatic damage including edema, acinar cells vacuolization, hemorrhages, acinar necrosis, leukocytic infiltration of the gland, and led to its earlier regeneration. These effects were accompanied by an improvement in pancreatic blood flow, enhanced DNA synthesis, reduced serum level of pro- inflammatory interleukin-1β, decreased levels of malondialdehyde and an enhanced superoxide dismutase activity in pancreatic tissue.

CONCLUSIONS

Ghrelin exerts a pronounced therapeutic effect against ischemia-reperfusion-induced pancreatitis. The mechanisms involved are likely multifactorial and are mediated by its anti-inflammatory, as well as anti-oxidative properties.

The influence of pretreatment with ghrelin on the development of acetic-acid-induced colitis in rats

Ghrelin has been primarily shown to exhibit protective and therapeutic effect in the gut. Pretreatment with ghrelin inhibits the development of acute pancreatitis and accelerates pancreatic recovery in the course of this disease. In the stomach, ghrelin reduces gastric mucosal damage induced by ethanol, stress or alendronate, as well as accelerates the healing of acetic acid-induced gastric and duodenal ulcer. The aim of present studies was to investigate the effect of pretreatment with ghrelin on the development of acetic acid-induced colitis. Studies have been performed on male Wistar rats. Animals were treated intraperitoneally with saline (control) or ghrelin (4, 8 or 16 nmol/kg/dose). Saline or ghrelin was given twice: 8 and 1 h before induction of colitis. Colitis was induced by a rectal enema with 1 ml of 4% solution of acetic acid and the severity of colitis was assessed 1 or 24 hours after induction of inflammation. Rectal administration of acetic acid induced colitis in all animals. Damage of colonic wall was seen at the macroscopic and microscopic level. This effect was accompanied by a reduction in colonic blood flow and mucosal DNA synthesis. Moreover, induction of colitis significantly increased mucosal concentration of pro-inflammatory interleukin-1β (IL-1β), activity of myeloperoxidase and concentration of malondialdehyde (MDA). Mucosal activity of superoxide dismutase (SOD) was reduced. Pretreatment with ghrelin reduced the area and grade of mucosal damage. This effect was accompanied by an improvement of blood flow, DNA synthesis and SOD activity in colonic mucosa. Moreover, ghrelin administration reduced mucosal concentration of IL-1β and MDA, as well as decreased mucosal activity of myeloperoxidase. Administration of ghrelin protects the large bowel against the development of the acetic acid-induced colitis and this effect seems to be related to the ghrelin-evoked anti-inflammatory and anti-oxidative effects.

Pretreatment with low doses of acenocoumarol inhibits the development of acute ischemia/reperfusion-induced pancreatitis

Coagulative disorders are known to occur in acute pancreatitis and are related to the severity of this disease. Various experimental and clinical studies have shown protective and therapeutic effect of heparin in acute pancreatitis. Aim of the present study was to determine the influence of acenocoumarol, a vitamin K antagonist, on the development of acute pancreatitis. Studies were performed on male Wistar rats weighing 250 - 270 g. Acenocoumarol at the dose of 50, 100 or 150 μg/kg/dose or vehicle were administered once a day for 7 days before induction of acute pancreatitis. Acute pancreatitis was induced in rats by pancreatic ischemia followed by reperfusion. The severity of acute pancreatitis was assessed after 5-h reperfusion. Pretreatment with acenocoumarol given at the dose of 50 or 100 μg/kg/dose reduced morphological signs of acute pancreatitis. These effects were accompanied with a decrease in the pancreatitis-evoked increase in serum activity of lipase and serum concentration of pro-inflammatory interleukin-1β. Moreover, the pancreatitis-evoked reductions in pancreatic DNA synthesis and pancreatic blood flow were partially reversed by pretreatment with acenocoumarol given at the dose of 50 and 100 μg/kg/dose. Administration of acenocoumarol at the dose of 150 μg/kg/dose did not exhibit any protective effect against ischemia/reperfusion-induced pancreatitis. We concluded that pretreatment with low doses of acenocoumarol reduces the severity of ischemia/reperfusion-induced acute pancreatitis.

Peptidyl hormones of endocrine cells origin in the gut--their discovery and physiological relevance

In 1902 William Bayliss and Ernest Starling discovered secretin and it was the beginning of general endocrinology as well as, endocrinology of gastrointestinal tract. Ernest Starling was also a first person who introduced a term hormone for the substances which serves to transfer the information between cells of organism. Subsequent years delivered discovery of successive hormones of the digestive tract. Gastrin was discovered in 1905; whereas cholecystokinin in 1928. Ghrelin and obestatin are last hormones determined in the gastrointestinal tract and they were found in 1999 and 2006, respectively. Both above hormones are originating from the common prohormone. In 60s of past century, the biochemical structure of the gastrointestinal tract hormones was determined for the first time. Substantial progress in endocrinology of the digestive tract took place when radioimmunoassay was employed to measure of hormones concentration. Subsequently, radiolabeled hormones were used to localize hormonal receptors. Next breakthrough in the gastrointestinal tract endocrinology happened after introduction to experimental methods the cloning of complementary DNA. This method has allowed, among the others, to establish the full structure of receptors as well as, a genes coding hormones and their receptors. Discovery of genes structure allowed subsequently introducing these genes into foreign cells, what gives a chance to obtain significant amount of recombined hormones possessing species specificity. This review is presenting a history of the gastrointestinal tract endocrinology, as well as a relevance of gastrointestinal tract hormones in the regulation of body physiological activity.

Involvement of cyclooxygenase-1 and cyclooxygenase-2 activity in the therapeutic effect of ghrelin in the course of ethanol-induced gastric ulcers in rats

Previous studies have shown that treatment with ghrelin exhibits protective and therapeutic effects in the gut. Aim of our present investigation was to examine the influence of ghrelin administration on the healing of ethanol-induced gastric ulcers and determine the role of cyclooxygenase-1 and cyclooxygenase-2 in this effect. Our studies were performed on male Wistar rats. Gastric ulcers were induced by intragastric administration of 75% ethanol. Ghrelin alone or in combination with cyclooxygenase inhibitors was administered twice, 1 and 13 hours after ethanol application. Cyclooxygenase-1 (COX-1) inhibitor (SC-560, 10 mg/kg/dose) or COX-2 inhibitor (celecoxib, 10 mg/kg/dose) were given 30 min prior to ghrelin. Twelve or 24 hours after administration of ethanol, rats were anesthetized and experiments were terminated. The study revealed that administration of ethanol induced gastric ulcers in all animals and this effect was accompanied by the reduction in gastric blood flow and mucosal DNA synthesis. Moreover induction of gastric ulcer by ethanol significantly increased mucosal expression of mRNA for COX-2, IL-1β and TNF-α. Treatment with ghrelin significantly accelerated gastric ulcer healing. Therapeutic effect of ghrelin was associated with significant reversion of the ulcer-evoked decrease in mucosal blood flow and DNA synthesis. Ghrelin administration also caused the reduction in mucosal expression of mRNA for IL-1β and TNF-α. Addition of SC-560 slightly reduced the therapeutic effect of ghrelin in the healing of ethanol-induced ulcer and the ulcer area in rats treated SC-560 plus ghrelin was significantly smaller than that observed in rats treated with saline or SC-560 alone. Pretreatment with celecoxib, a COX-2 inhibitor, abolished therapeutic effect of ghrelin. We concluded that treatment with ghrelin increases healing rate of gastric ulcers evoked by ethanol and this effect is related to improvement in mucosal blood flow, an increase in mucosal cell proliferation, and reduction in mucosal expression of proinflammatory cytokines. Ghrelin is able to reverse a deleterious effect of COX-1 inhibitor on healing of ethanol-induced gastric ulcers. Activity of COX-2 is necessary for the therapeutic effect of ghrelin in healing of ethanol-induced gastric ulcers.

Ghrelin accelerates the healing of oral ulcers in non-sialoadenectomized and sialoadenectomized rats

Ghrelin exhibits protective and therapeutic effect in different parts of the gastrointestinal tract. The aim of the present study was to examine the influence of ghrelin administration on the healing of oral ulcers in rats with intact salivary gland and in sialoadenectomized rats. Gingival and lingual ulcers were induced by acetic acid. After induction of ulcers, rats were treated with saline or ghrelin for six days. In rats with intact salivary glands and induction of oral ulcers, administration of ghrelin significantly increased the healing rate of these ulcers. This result was associated with a significant increase in mucosal blood flow and cell proliferation, and a decrease in concentration of pro-inflammatory interleukin-1β in gingival and lingual mucosa. Sialoadenectomy decreased cell proliferation and increased concentration of pro-inflammatory interleukin-1β in oral mucosa, as well as reduced the healing rate of gingival and lingual ulcers. Administration of ghrelin reversed deleterious effect of sialoadenectomy and increased the healing rate of oral ulcers above a value observed in rats with intact salivary glands.

CONCLUSIONS

Treatment with ghrelin accelerates healing of oral ulcers in salivary glands-intact rat, as well as in rats with reduced salivary secretion evoked by sialoadenectomy. Mechanisms of beneficial effects of ghrelin administration involve an increase in mucosal blood flow and cell proliferation, as well as a reduction in local inflammation.

Heparin inhibits protective effect of ischemic preconditioning in ischemia/reperfusion-induced acute pancreatitis

Previous studies have shown that pancreatic ischemic preconditioning or heparin, applied before induction of acute pancreatitis inhibit the development of this disease and accelerate pancreatic recovery. The aim of the study was to determine the influence of treatment with heparin on protective effect of ischemic preconditioning (IP) in ischemia/reperfusion-induced acute pancreatitis. Heparin was administered twice, before and during induction of acute pancreatitis. IP was performed by short-term clamping of celiac artery, 30 min before induction of acute pancreatitis. Acute pancreatitis was induced in rats by clamping of inferior splenic artery for 30 min followed by reperfusion. Rats were sacrificed after 6-h and 24-h reperfusion.

RESULTS

IP applied alone caused a mild pancreatic damage associated with a limited increase in plasma amylase activity, concentration of pro-inflammatory interleukin-1β and plasma level of D-dimer. Pretreatment with heparin or IP applied alone reduced the severity of acute pancreatitis. Both these procedures caused a similar reduction in plasma lipase, amylase and interleukin-1β, as well as in histological signs of pancreatic damage. These changes were associated with partial reversion of the pancreatitis-evoked fall of pancreatic blood flow and DNA synthesis. Combination of heparin plus IP reduced the protective effect of heparin or IP applied alone. It was manifested by an increase in pancreatic damage and plasma level of lipase, amylase and interleukin-1β, as well as by reduction in pancreatic DNA synthesis and plasma concentration of D-dimer and interleukin-10.

CONCLUSIONS

heparin abolishes the protective effect of ischemic preconditioning in ischemia reperfusion-induced pancreatitis. This observation suggests that initial clot formation is necessary to induce pancreatic protection by IP.

Role of sensory nerves in gastroprotective effect of anandamide in rats

Previous studies have shown that stimulation of cannabinoid 1 (CB1) receptor protects the gastric mucosa against stress-induced lesion. Aim of the present study was to examine the influence of anandamide on lipid peroxidation and antioxidant defense system in gastric mucosa and the role of sensory nerves in gastroprotective effects of cannabinoids. Studies were performed on rats with intact or ablated sensory nerves (by neurotoxic doses of capsaicin). Gastric lesions were induced by water immersion and restrain stress (WRS). Anandamide was administered at the dose of 0.3, 1.5 or 3.0 μmol/kg, 30 min before exposure to WRS. CB1 receptor antagonist, AM251 (4.0 μmol/kg) was administered 40 min before WRS. WRS induced gastric lesions associated with the decrease in gastric blood flow, mucosal DNA synthesis and mucosal activity of superoxide dismutase (SOD). Serum level of interleukin-1β (IL-1β) and mucosal level of malondialdehyde (MDA) and 4-hydroxynonenal (4-HNE) were increased. Administration of anandamide reduced the ulcers area, generation of MDA+4-HNE and serum level of IL-1β, and this effect was associated with the reduction in the WRS-induced decrease in gastric mucosal blood flow, mucosal DNA synthesis and SOD activity. Ablation of sensory nerves increased the area of ulcers, serum level of IL-1β and mucosal content of MDA+4-HNE, whereas mucosal DNA synthesis, SOD activity and blood flow were additionally decreased. In rats with ablation of sensory nerves, administration of anandamide at the high doses (1.5 and 3.0 μmol/kg) partly reduced deleterious effect of WRS on gastric mucosa, but this effect was weaker than in animals with intact sensory nerves. Low dose of anandamide (0.3 μmol/kg) was ineffective in the protection of gastric mucosa against the WRS-induced lesions in rats with ablation of sensory nerves. In rats with intact sensory nerves and exposed to WRS, administration of AM251 exhibited deleterious effect. In rats with ablation of sensory nerves and exposed to WRS, AM251 failed to affect mucosal injury in the stomach. We conclude that anandamide reduces the mucosal oxidative stress and exhibits gastroprotective effect against WRS-induced ulcers. These effects are partly mediated by sensory nerves.

Role of hormonal axis, growth hormone - IGF-1, in the therapeutic effect of ghrelin in the course of cerulein-induced acute pancreatitis

Ghrelin is a ligand for growth hormone secretagogue receptor and stimulates release of growth hormone (GH). Recent studies have shown that treatment with ghrelin exhibits protective and therapeutic effect in the course of experimental pancreatitis. The aim of present study was to examine the role of GH and insulin-like growth factor-1 (IGF-1) in these effects. Acute pancreatitis was induced by cerulein. Study was performed on pituitary-intact hypophysectomized rats. Ghrelin was administered twice a day at the dose of 8 nmol/kg/dose. IGF-1 was given twice a day at the dose of 20 nmol/kg/dose. The severity of acute pancreatitis was assessed 0 h or 1, 2, 3, 5 and 10 days after the last dose of cerulein. Administration of cerulein led to the development of acute edematous pancreatitis. In pituitary-intact rats, treatment with ghrelin reduced biochemical indexes of the severity of acute pancreatitis and morphological signs of pancreatic damage, leading to faster regeneration of the pancreas reduction in serum concentration of pro-inflammatory interleukin-1β and decrease in serum activity of amylase and lipase. These effects were accompanied with an improvement of pancreatic blood flow and an increase in pancreatic DNA synthesis. Hypophysectomy delayed the healing of the pancreas and abolished the therapeutic effect of ghrelin. In hypophysectomized rats with pancreatitis, treatment with IGF-1 exhibits therapeutic effect similar to that observed in ghrelin-treated rats with the intact pituitary. We conclude that therapeutic effect of ghrelin in cerulein-induced pancreatitis is indirect and depends on the release of GH and IGF-1.

Therapeutic effect of ghrelin in the course of cerulein-induced acute pancreatitis in rats

Recent studies have shown that pretreatment with ghrelin exhibits protective effect in the gut. Administration of ghrelin reduces gastric mucosal damage, as well as inhibits the development of experimental pancreatitis. However, this protective effect requires administration of ghrelin before gastric or pancreatic damage and thus has a limited clinical value. The aim of present study was to assess the influence of ghrelin administered after development of acute pancreatitis on the course of this disease. Acute pancreatitis was induced by cerulein. Ghrelin was administered twice a day for 1, 2, 4, 6 or 9 days at the dose of 4, 8 or 16 nmol/kg/dose. The first dose of ghrelin was given 24 hours after last injection of cerulein. The severity of acute pancreatitis was assessed between 0 h and 10 days after cessation of cerulein administration. Administration of caerulein led to the development of acute edematous pancreatitis and maximal severity of this disease was observed 24 hours after induction of pancreatitis. Treatment with ghrelin reduced morphological signs of pancreatic damage such as pancreatic edema, leukocyte infiltration and vacuolization of acinar cells, and led to earlier regeneration of the pancreas. Also biochemical indexes of the severity of acute pancreatitis, serum activity of lipase and amylase were significantly reduced in animals treated with ghrelin. These effects were accompanied by an increase in the pancreatic DNA synthesis and a decrease in serum level of pro-inflammatory interleukin-1b. Administration of ghrelin improved pancreatic blood flow in rats with acute pancreatitis. We conclude that: (1) treatment with ghrelin exhibits therapeutic effect in caerulein-induced experimental acute pancreatitis; (2) this effect is related, at least in part, to the improvement of pancreatic blood flow, reduction in proinflammatory interleukin-1beta and stimulation of pancreatic cell proliferation.

Pretreatment with obestatin inhibits the development of cerulein-induced pancreatitis

Obestatin is a peptide derived from the proghrelin, a common prohormone for ghrelin and obestatin. Obestatin, like the ghrelin has been originally extracted from rat stomach, and the stomach seems to be a major source of circulating obestatin. Previous studies have shown that administration of ghrelin exhibits protective effect in the pancreas, inhibiting the development of acute pancreatitis. Recent study has shown that obestatin promotes survival of beta-cells and pancreatic islets. Aim of the present study was to investigate the influence of obestatin administration on the development of cerulein-induced pancreatitis. Studies were performed on male Wistar rats. Acute pancreatitis was induced by cerulein given intraperitoneally 5 times at a dose of 50 microg/kg/dose with 1-h intervals. Obestatin was injected twice intraperitoneally at the dose of 4, 8 or 16 nmol/kg/dose. In control saline-treated rats, obestatin was without effect on pancreatic morphology, serum activity of pancreatic enzymes, serum level of pro-inflammatory interleukin-1beta or pancreatic cells proliferation. In animals with induction of acute pancreatitis, morphological examination showed that administration of obestatin decreased pancreatic leukocyte infiltration and vacuolization of acinar cells. These effects were accompanied by reduction in the pancreatitis-evoked increase in serum level of pancreatic digestive enzymes, lipase amylase and poly-C ribonuclease. Obestatin administered at the highest dose of 16 nmo/kg/dose reduced serum activity of these enzymes by 33, 42 and 44%, respectively. Also serum concentration of pro-inflammatory interleukin-1beta was decreased by obestatin in rats with acute pancreatitis; whereas the pancreatitis-evoked decrease in pancreatic blood flow and pancreatic DNA synthesis was partially reversed. Administration of obestatin reduces the severity of cerulein-induced acute pancreatitis. This effect is related, at least in part, to the improvement of pancreatic blood flow and reduction in proinflammatory interleukin-1beta release.

Treatment with ghrelin accelerates the healing of acetic acid-induced gastric and duodenal ulcers in rats

Recent studies have shown that ghrelin exhibits gastroprotective effects. The aim of present study was to examine the influence of ghrelin administration on the healing of chronic gastric and duodenal ulcers and to evaluate the role of growth hormone (GH) and insulin-like growth factor-1 (IGF-1) in this process. In pituitary-intact or hypophysectomized rats, chronic gastric and duodenal ulcers were induced by acetic acid. After induction of ulcers, rats were treated intraperitoneally twice a day with saline, ghrelin (4, 8 or 16 nmol/kg/dose) or IGF-1 (20 nmol/kg/dose) for six or ten days. In animals with intact pituitary, treatment with ghrelin increased serum level of GH and IGF-1. These effects were accompanied by the increase in mucosal cell proliferation, mucosal blood flow and healing rate of gastric and duodenal ulcers. After hypophysectomy, the significant increase in serum level of endogenous ghrelin was observed, but the healing of gastric and duodenal ulcers was delayed. This effect was accompanied by a significant decrease in serum concentration of endogenous GH and IGF-1, and reduction in mucosal blood flow and DNA synthesis. In hypophysectomized rats, administration of exogenous ghrelin was without any effect on serum level of GH and IGF-1, healing rate of gastroduodenal ulcers or mucosal cell proliferation. In contrast to this effect, administration of IGF-1 increased mucosal cell proliferation, healing rate of gastroduodenal ulcers and mucosal blood flow in hypophysectomized rats.

CONCLUSION

Treatment with ghrelin accelerates healing of chronic gastroduodenal ulcers and this effect is mediated by the release of endogenous GH and IGF-1.

Protective and therapeutic effect of heparin in acute pancreatitis

The initiation and progression of acute pancreatitis is associated with disturbances in pancreatic microcirculatory. Microcirculatory disorders contribute to multiorgan dysfunction syndrome in the course of acute pancreatitis. The aim of this study was to determine the influence of heparin administration on the development and the course of ischemia/reperfusion-induced pancreatitis.

METHODS

Acute pancreatitis was induced in rats by pancreatic ischemia followed by reperfusion. In the first series of studies, heparin was administered 0.5 h before induction of acute pancreatitis and the severity of acute pancreatitis was assessed after 6-h reperfusion. In the second series of studies, heparin was administered twice a day, starting 24 h after the initiation of reperfusion. In both series of studies, heparin was administered subcutaneously at the dose of 150 U/kg.

RESULTS

Treatment with heparin, before induction of pancreatitis, inhibits the development of morphological signs of acute pancreatitis and reduced the pancreatitis-evoked increase in plasma level of pancreatic enzymes and pro-inflammatory interleukin-1beta. These effects have been accompanied with improvement of pancreatic blood flow, pancreatic DNA synthesis and reduction in plasma concentration of D-dimer. Administration of heparin after induction of acute pancreatitis accelerates normalization of pancreatic histology, and reduces biochemical markers of the severity of acute pancreatitis. These effects have been accompanied with the improvement of pancreatic circulation, increase in APTT and reduction in plasma D-dimer level.

CONCLUSIONS

Treatment with heparin inhibits the development of ischemia/reperfusion-induced pancreatitis and accelerates pancreatic regeneration in the course of this disease.

Ischemic preconditioning of the hindlimb or kidney does not attenuate the severity of acute ischemia/reperfusion-induced pancreatitis in rats

Ischemic preconditioning of several organs, including the pancreas has been shown to protect these organs from injury evoked by subsequent exposure to severe ischemia followed by reperfusion. Moreover, it has been shown that ischemic preconditioning of distant organs such as the kidney, intestine or limb may protect the heart as effectively as cardiac preconditioning itself. This study was designed to determine whether ischemic preconditioning of the kidney or hindlimb protects the pancreas against ischemia/reperfusion-induced pancreatitis.

METHODS

In male Wistar rats, remote ischemic preconditioning of the pancreas was performed by clamping of right femoral or renal artery twice for 5 min with 5 min interval. Direct ischemic preconditioning was performed by clamping of celiac artery. Thirty min after ischemic preconditioning or sham-operation, acute pancreatitis was induced by clamping of inferior splenic artery for 30 min followed by reperfusion. After 6, 12 h or 1, 2, 3, 5 or 9 days of reperfusion the experiment was ended. Secretory studies were performed 2 h after exposure to direct or remote ischemic preconditioning of the pancreas in conscious rats with chronic pancreatic fistula.

RESULTS

Direct ischemic preconditioning of the pancreas applied alone reduced pancreatic exocrine secretion; whereas ischemic preconditioning of the hindlimb or kidney was without effect on pancreatic secretion. Direct ischemic preconditioning of the pancreas attenuated the severity of acute pancreatitis. It was found as a reduction in the pancreatitis-evoked increase in serum activity of lipase and amylase, a decrease in serum concentration of pro-inflammatory interleukin-1beta, diminution of histological signs of pancreatic damage, as well as, an improvement of pancreatic blood flow and DNA synthesis. Remote ischemic preconditioning of the pancreas evoked by short-lasting ischemia of the hindlimb or kidney was without any protective effect in ischemia/reperfusion-induced pancreatitis. Moreover, this procedure led to a significant increase in serum activity of lipase and amylase, and enhanced the morphological signs of pancreatic damage.

CONCLUSION

In contrast to direct ischemic preconditioning, remote ischemic preconditioning of the pancreas is without effect on pancreatic exocrine secretion and does not reduce the severity of ischemia/reperfusion-induced pancreatitis.

Influence of ischemic preconditioning on blood coagulation, fibrinolytic activity and pancreatic repair in the course of caerulein-induced acute pancreatitis in rats

Previous studies have shown that ischemic preconditioning protects several organs, including the pancreas, from ischemia/reperfusion-induced injury. The aim of the investigation was to determine whether ischemic preconditioning affects the course edematous pancreatitis.

METHODS

In rats, ischemic preconditioning was performed by short-term clamping the celiac artery. Acute pancreatitis was induced by caerulein. The severity of acute pancreatitis was evaluated between the first and tenth day of inflammation.

RESULTS

Ischemic preconditioning applied alone caused a mild pancreatic damage. Combination of ischemic preconditioning with caerulein attenuated the severity of pancreatitis in histological examination and reduced the pancreatitis-evoked increase in plasma lipase and pro-inflammatory interleukin-1beta. This effect was associated with an increase in plasma level of anti-inflammatory interleukin-10 and partial reversion of the pancreatitis-evoked drop in pancreatic DNA synthesis and pancreatic blood flow. In secretory studies, ischemic preconditioning in combination with induction of acute pancreatitis attenuated the pancreatitis-evoked decrease in secretory reactivity of isolated pancreatic acini to stimulation by caerulein. In the initial period of acute pancreatitis, ischemic preconditioning alone and in combination with caerulein-induced acute pancreatitis prolonged the activated partial thromboplastin time (APTT), increased plasma level of D-dimer and shortened the euglobulin clot lysis time. The protective effect of ischemic preconditioning was observed during entire time of experiment and led to acceleration of pancreatic regeneration.

CONCLUSIONS

Ischemic preconditioning reduces the severity of caerulein-induced pancreatitis and accelerates pancreatic repair; and this effect is related to the activation of fibrinolysis and reduction of inflammatory process.

Cannabinoids in acute gastric damage and pancreatitis

Recent studies have shown that stimulation of cannabinoid 1 (CB1) receptor reduces the area of ischemic myocardial necrosis and affects activity of the digestive tract. The aim of the present study was to check whether the administration of CB1 receptor agonist or antagonist affects the stress-induced gastric ulceration and development of edematous pancreatitis.

METHODS

Experiments were performed on rats. Gastric lesions were induced by water immersion and restrain stress (WRS). Acute pancreatitis was induced by cerulein. Prior to WRS or before and during cerulein administration, a natural endogenous ligand for CB1 receptor, anandamide was administered intraperitoneally at the dose of 0.8, 1.5 or 3.0 micromol/kg. A synthetic CB1 receptor antagonist, AM 251 (ALEXIS(R) Biochemicals) was administrated at the dose of 4 micromol/kg i.p. alone or in combination with anandamide at the dose of 1.5 micromol/kg.

RESULTS

Administration of anandamide reduced gastric lesions and this effect was associated with am increase in gastric mucosal blood flow and mucosal DNA synthesis; whereas serum level of pro-inflammatory interleukin-1 beta was reduced. Treatment with AM 251 aggravated gastric damage and reversed protective effect of anandamide administration. Opposite effect was observed in the pancreas. Administration of anandamide increased dose-dependently the severity of pancreatitis. In histological examination, we observed an increase in pancreatic edema and inflammatory infiltration. Also, treatment with anandamide augmented the pancreatitis-induced increase in serum level of lipase, amylase, poly-C ribonuclease, and pro-inflammatory interleukin-1 beta; whereas pancreatic DNA synthesis was reduced. Treatment with AM 251 reduced histological and biochemical signs of pancreatic damage and reversed deleterious effect of anandamide in cerulein-induced acute pancreatitis.

CONCLUSIONS

Activation of CB1 receptors evokes opposite effects in the stomach and pancreas: in the stomach, exhibits protective effect against stress-induced gastric mucosal lesions; whereas in the pancreas, increases the severity of cerulein-induced pancreatitis.

Influence of ghrelin on gastric and duodenal growth and expression of digestive enzymes in young mature rats

Ghrelin, a nature ligand for the growth hormone secretagogue receptor (GHS-R), stimulates a release of growth hormone, prolactin and adrenocorticotropic hormone. Also, ghrelin increases food intake in adult rats and humans and exhibits gastroprotective effect against experimental ulcers induced by ethanol or stress. The aim of present study was to examine the influence of ghrelin administration on gastric and duodenal growth and expression of pepsin and enterokinase in young mature rats with intact or removed pituitary.

METHODS

Two week after sham operation or hypophysectomy, eight week old Wistar male rats were treated with saline (control) or ghrelin (4, 8 or 16 nmol/kg/dose) i.p. twice a day for 4 days. Expression of pepsin in the stomach and enterokinase in the duodenum was evaluated by real-time PCR.

RESULTS

In animals with intact pituitary, treatment with ghrelin increased food intake, body weight gain and serum level of growth hormone and insulin-like growth factor-1 (IGF-1). These effects were accompanied with stimulation of gastric and duodenal growth. It was recognized as the significant increase in gastric and duodenal weight and mucosal DNA synthesis. In both organs, ghrelin administered at the dose of 8 nmol/kg caused maximal growth-promoting effect. In contrast to these growth-promoting effects, administration of ghrelin reduced expression of mRNA for pepsin in the stomach and was without effect on expression of mRNA for enterokinase in the duodenum. Hypophysectomy alone lowered serum concentration of growth hormone under the detection limit and reduced serum level of IGF-1 by 90%. These effects were associated with reduction in daily food intake, body weight gain and gastroduodenal growth. In hypophysectomized rats, administration of ghrelin was without significant effect on food intake, body weight gain or growth of gastroduodenal mucosa. Also, serum concentration of growth hormone or IGF-1 was not affected by ghrelin administration in rats with removed pituitary.

CONCLUSION

Administration of ghrelin stimulates gastric and duodenal growth in young mature rats with intact pituitary, but inhibits expression of mRNA for pepsin in the stomach. Growth hormone and insulin-like growth factor-1 play an essential role in growth-promoting effects of ghrelin in the stomach and duodenum.

Effect of ischemic preconditioning on pancreatic regeneration and pancreatic expression of vascular endothelial growth factor and platelet-derived growth factor-A in ischemia/reperfusion-induced pancreatitis

Ischemic preconditioning has been shown to protect several organs from ischemia/reperfusion-induced injury. In the pancreas, protective effect of ischemic preconditioning has been shown against pancreatitis evoked by ischemia/reperfusion, as well as by caerulein. However, the effect of ischemic preconditioning on the course of acute pancreatic is unclear. The aim of our study was to evaluate the influence of ischemic preconditioning on pancreatic regeneration and pancreatic presence of platelet-derived growth factor-A (PDGF-A) and vascular endothelial growth factor (VEGF) in the course of ischemia/reperfusion-induced pancreatitis.

METHODS

In male Wistar rats, ischemic preconditioning of the pancreas was performed by short-term clamping of celiac artery (twice for 5 min with 5 min interval). Acute pancreatitis was induced by clamping of inferior splenic artery for 30 min followed by reperfusion. Rats were sacrificed 1, 5, 12 h or 1, 2, 3, 5, 7, 9 and 21 days after the start of reperfusion. Severity of acute pancreatitis and pancreatic regeneration were determined by biochemical and morphological examination, expression of growth factors was determined by immunohistochemical analysis.

RESULTS

In ischemia/reperfusion-induced pancreatitis, the pancreatic damage reached the maximal range between the first and second day of reperfusion, and was followed by subsequent pancreatic regeneration. Ischemic preconditioning alone caused mild passing pancreatic damage and an increase in plasma concentration of pro-inflammatory interleukin-1 and anti-inflammatory interleukin-10. Ischemic preconditioning applied before ischemia/reperfusion-induced pancreatitis reduced morphological and biochemical signs of the pancreatitis-evoked pancreatic damage and accelerated pancreatic regeneration. This effect was associated with improvement of pancreatic blood flow. Ischemic preconditioning, ischemia/reperfusion-induced pancreatitis and their combination increased the presence of VEGF in acinar and islet cells, and immunostaining for PDGF-A in blood vessels. This effect was maximally pronounced after combination of ischemic preconditioning plus pancreatitis and occurred earlier than after pancreatitis alone.

CONCLUSIONS

Ischemic preconditioning reduces pancreatic damage and accelerates pancreatic healing in the course of ischemia/reperfusion-induced pancreatitis. This effect is associated with the increase in plasma concentration of anti-inflammatory interleukin-10, improvement of pancreatic blood flow and alteration of pancreatic immunohistochemical expression of PDGF-A and VEGF.

Variable effect of ghrelin administration on pancreatic development in young rats. Role of insulin-like growth factor-1

Ghrelin, an endogenous ligand of the growth hormone secretagogue receptor, has been primarily isolated from the human and rat stomach. Ghrelin has been shown to stimulate appetite and fat deposition in adult rats and humans. The aim of this study was to investigate the effect of ghrelin administration on pancreatic growth in suckling, weaned and peripubertal seven week old rats. Rats were treated with saline or ghrelin (4, 8 or 16 nmol/kg/dose) intraperitoneally twice a day: suckling rats were treated for 7 or 14 days starting from the first postnatal day, three week old weaned rats and seven weeks old rats were treated for 5 days. Treatment with ghrelin did not affect animal weight in suckling or weaned rats, whereas in young seven week old rats, ghrelin caused a significant increase in body weight. Ghrelin decreased food intake in weaned rats; whereas in seven week old rats, food intake was enhanced. In suckling rats, ghrelin decreased the pancreatic weight, pancreatic amylase content, DNA synthesis and DNA content. In contrast, ghrelin increased pancreatic weight, DNA synthesis, DNA content and amylase content in weaned or young seven week old rats. Pancreatic blood flow was not affected by ghrelin in any group of rats tested. Ghrelin increased serum level of growth hormone in all rats. This effect was weak in suckling rats, higher in weaned and the highest in seven week old animals. Ghrelin did not affect serum level of insulin-like growth factor-1 (IGF-1) in suckling rats. In weaned and in seven week old rats, treatment with ghrelin caused increase in serum level of IGF-1. We conclude that ghrelin reduces pancreatic growth in suckling rats; whereas in weaned and young seven week old animals, treatment with ghrelin increases pancreatic growth. This biphasic effect of ghrelin in young animals on pancreatic growth seems to be related to age-dependent changes of the release of anabolic IGF-1.

Extract of grapefruit-seed reduces acute pancreatitis induced by ischemia/reperfusion in rats: possible implication of tissue antioxidants

Grapefruit seed extract (GSE) has been shown to exert antibacterial, antifungal and antioxidant activity possibly due to the presence of naringenin, the flavonoid with cytoprotective action on the gastric mucosa. No study so far has been undertaken to determine whether this GSE is also capable of preventing acute pancreatic damage induced by ischemia/reperfusion (I/R), which is known to result from reduction of anti-oxidative capability of pancreatic tissue, and whether its possible preventive effect involves an antioxidative action of this biocomponent. In this study carried out on rats with acute hemorrhagic pancreatitis induced by 30 min partial pancreatic ischemia followed by 6 h of reperfusion, the GSE or vehicle (vegetable glycerin) was applied intragastrically in gradually increasing amounts (50-500 microl) 30 min before I/R. Pretreatment with GSE decreased the extent of pancreatitis with maximal protective effect of GSE at the dose 250 microl. GSE reduced the pancreatitis-evoked increase in serum lipase and poly-C specific ribonuclease activity, and attenuated the marked fall in pancreatic blood flow and pancreatic DNA synthesis. GSE administered alone increased significantly pancreatic tissue content of lipid peroxidation products, malondialdehyde and 4-hydroxyalkens, and when administered before I/R, GSE reduced the pancreatitis-induced lipid peroxidation. We conclude that GSE exerts protective activity against I/R-induced pancreatitis probably due to the activation of antioxidative mechanisms in the pancreas and the improvement of pancreatic blood flow.

Immunohistochemical expression of FGF-2, PDGF-A, VEGF and TGF beta RII in the pancreas in the course of ischemia/reperfusion-induced acute pancreatitis

Acute pancreatitis leads to pancreatic damage followed by subsequent regeneration. The aim of our study was to evaluate the presence of growth factors in the course of spontaneous pancreatic regeneration after ischemia/reperfusion (I/R)-induced pancreatitis.

METHODS

In rats, I/R was evoked by clamping of splenic artery for 30 min followed by reperfusion. Rats were sacrificed 1, 5, 12 h or 1, 2, 3, 5, 7, 9 or 21 days after removal of vascular clips. Pancreatic blood flow (PBF), plasma lipase, interleukin-1beta (IL-1beta), interleukin-10, pancreatic cells proliferation and morphological signs of pancreatitis were determined. Pancreatic presence of fibroblast growth factor-2 (FGF-2), vascular endothelial growth factor (VEGF), platelet-derived growth factor-A (PDGF-A) and transforming growth factor-beta type II receptor (TGFbeta RII) was detected by immunohistochemisty.

RESULTS

Exposure to I/R led to the development of acute necrotizing pancreatitis followed by regeneration. Morphological features showed maximal pancreatic damage between the 1(st) and 2(nd) day of reperfusion. It was correlated with a maximal increase in plasma lipase, and pro-inflammatory IL-1beta concentration, as well as, a reduction in PBF and pancreatic DNA synthesis. I/R increased FGF-2 content in pancreatic acinar cells between the 12(th) and 24(th) h, and between 5(th) and 9(th) day of reperfusion. At the 2(nd) day the presence of FGF-2 in pancreatic acinar cells was reduced. After I/R PDGF-A appeared in pancreatic vessels from the 12(th) h to 5 (th) day of reperfusion. PDGF-A was not observed in pancreatic acinar cells in the control or in I/R group. In pancreatic ducts, the presence of PDGF-A was reduced between the 1(st) and 3(rd), and between 7(th) and 9(th) day of reperfusion. In acinar cells, VEGF content was increased after I/R at the time between the 1(st) and 24(th) h, and between 3(rd) and 7(th) day of reperfusion. At the 2(nd) day of reperfusion, VEGF was not detected in the pancreatic acinar cells. Moreover, VEGF was found in the inflammatory infiltration, in the tubular complexes between the 2(nd) and 5(th) day, and in granulation tissue at the 9(th) day of reperfusion. In pancreatic acinar cells, I/R caused an increase in TGFbeta RII presence between the 5(th) and 24(th) h, and between 7(th) and 9(th) day of reperfusion. Between the 2(nd) and 5(th) day of reperfusion the acinar presence of TGFbeta RII was reduced. In the pancreatic ducts, the presence of TGFbeta RII was increased after I/R from the 1(st) h to 9(th) day of observation. Four weeks after induction of acute pancreatitis, the pancreatic regeneration was completed and the presence of growth factors tested returned to control value.

CONCLUSIONS

The presence of FGF, VEGF, PDGF-A and TGFbeta RII is modified in the course of I/R-induced acute pancreatitis. Maximal content of FGF, VEGF and TGFbeta RII has been observed in early stage of pancreatic regeneration suggesting the involvement these factors in pancreatic recovery.

Influence of central and peripheral administration of pancreatic polypeptide on gastric mucosa growth

Previous studies have shown that pancreatic polypeptide (PP) inhibits exocrine pancreatic secretion. The aim of present study was to determine the influence of PP administration on gastric growth and blood flow.

METHODS

Study was performed on regularly fed, fasted or fasted and subsequently refed rats. Rats were treated with saline (intraperitoneally - i.p.), caerulein (0.24 nmol/kg/dose, i.p.), pentagastrin (0.38 micromol/kg/dose, i.p.) or PP (5 nmol/kg/dose, i.p. or 10 pmol/dose intracerebroventricularly - i.c.v.). Saline, caerulein, pentagastrin and PP were administered alone or in combination, 3 times daily during last 48 h of experiment.

RESULTS

Treatment with pentagastrin increased gastric mucosa weight, mucosal DNA synthesis and gastric blood flow in all group tested. Intraperitoneal and i.c.v administration of PP alone reduced mucosal DNA synthesis in regularly fed and refed animals, and decreased gastric blood flow in refed animals. Combination of PP i.p. or i.c.v plus pentagastrin significantly reduced the pentagastrin-evoked increase in gastric mucosa weight, gastric DNA synthesis and gastric blood flow in fasted animals, as well as regularly fed animals. In refed animals, influence of PP administration on the pentagastrin-evoked increase in gastric mucosa weight was weak and statistically insignificant, but still i.p or i.c.v administration of PP significantly reduced gastric blood flow and mucosal DNA synthesis in this group of animals. Administration of caerulein caused weak, but significant increase in gastric DNA synthesis, gastric mucosa weight and gastric blood flow in fasted rats. In regularly fed animals, caerulein significantly increased only gastric DNA synthesis and gastric blood flow. In fasted animals with subsequent refeeding, caerulein was without effect on parameters tested in the stomach. Neither i.p. nor i.c.v administration of PP affected the caerulein-evoked effects in the stomach.

CONCLUSIONS

Peripheral and central administration of PP inhibits food- and pentagastrin-stimulated growth of gastric mucosa. Similar effects of low central doses of PP as the high peripheral doses of PP suggests a crucial role of the central nervous system in the inhibitory effect of PP on gastric mucosa growth.

IGF-1 stimulates production of interleukin-10 and inhibits development of caerulein-induced pancreatitis

BACKGROUND/AIM

Insulin-like growth factor-1 (IGF-1) and other growth factors overexpression was reported in acute pancreatitis. Previous studies have shown the protective effect of epidermal growth factor (EGF), Hepatocyte Growth Factor (HGF) and Fibroblast Growth Factor (FGF) in the course of experimental acute pancreatitis. The aim of our studies was to determine the effect of IGF-1 administration on the development of caerulein-induced pancreatitis.

METHODS

Acute pancreatitis was induced by infusion of caerulein (10 micro/kg/h) for 5 h. IGF-1 was administrated twice at the doses: 2, 10, 50, or 100 micro/kg s.c.

RESULTS

Administration of IGF-1 without induction of pancreatitis increased plasma interleukin-10 (IL-10). Infusion of caerulein led to development of acute edematous pancreatitis. Histological examination showed pancreatic edema, leukocyte infiltration and vacuolization of acinar cells. Also, acute pancreatitis led to an increase in plasma lipase and interleukin 1beta (IL-1beta) level, whereas pancreatic DNA synthesis and pancreatic blood flow were decreased. Treatment with IGF-1, during induction of pancreatitis, increased plasma IL-10 and attenuated the pancreatic damage, what was manifested by histological improvement of pancreatic integrity, the partial reversion of the drop in pancreatic DNA synthesis and pancreatic blood flow, and the reduction in pancreatitis-evoked increase in plasma amylase, lipase and IL-1beta level. Protective effect of IGF-1 administration was dose-dependent. Similar strong protective effect was observed after IGF-1 at the dose 2 x 50 and 2 x 100 microg/kg.

CONCLUSIONS

(1) Administration of IGF-1 attenuates pancreatic damage in caerulein-induced pancreatitis; (2) This effect is related, at least in part, to the increase in IL-10 production, the reduction in liberation of IL-1beta and the improvement of pancreatic blood flow.

Ghrelin attenuates the development of acute pancreatitis in rat

BACKGROUND

Ghrelin, a circulating growth hormone-releasing peptide isolated from human and rat stomach, stimulates growth hormone secretion, food intake and exhibits gastroprotective properties. Ghrelin is predominantly produced by a population of endocrine cells in the gastric mucosa, but its presence in bowel, pancreas, pituitary and hypothalamus has been reported. In human fetal pancreas, ghrelin is expressed in a prominent endocrine cell population. In adult pancreatic islets the population of these cell is reduced. The aim of present study was to investigate the influence of ghrelin administration on the development of acute pancreatitis.

METHODS

Acute pancreatitis was induced in rat by caerulein injection. Ghrelin was administrated twice (30 min prior to the first caerulein or saline injection and 3 h later) at the doses: 2, 10 or 20 nmol/kg. Immediately after cessation of caerulein or saline injections the following parameters were measured: pancreatic blood flow, plasma lipase activity, plasma interleukin-1beta (IL-1beta) and interleukin 10 (IL-10) concentration, pancreatic DNA synthesis, and morphological signs of pancreatitis.

RESULTS

Administration of ghrelin without induction of pancreatitis did not affect significantly any parameter tested. Caerulein led to the development of acute edematous pancreatitis. Treatment with ghrelin at the dose 2 nmol/kg, during induction of pancreatitis, was without effect on pancreatic histology or biochemical and functional parameters. Treatment with ghrelin at the dose 10 and 20 nmol/kg attenuated the development of pancreatitis and the effects of both doses were similar. Administration of ghrelin (10 or 20 nmol/kg) reduced inflammatory infiltration of pancreatic tissue and vacuolization of acinar cells. Also, plasma lipase activity and plasma IL-1beta concentration were reduced, and caerulein-induced fall in pancreatic DNA synthesis was reversed. Administration of ghrelin at the dose 10 and 20 nmol/kg was without effect on caerulein-induced pancreatic edema and pancreatitis-related fall in pancreatic blood flow.

CONCLUSIONS

(1) Administration of ghrelin attenuates pancreatic damage in caerulein-induced pancreatitis; (2) Protective effect of ghrelin administration seems Background: Ghrelin, a circulating growth hormone-releasing peptide isolated from human and rat stomach, stimulates growth hormone secretion, food intake and exhibits gastroprotective properties. Ghrelin is predominantly produced by a population of endocrine cells in the gastric mucosa, but its presence in bowel, pancreas, pituitary and hypothalamus has been reported. In human fetal pancreas, ghrelin is expressed in a prominent endocrine cell population. In adult pancreatic islets the population of these cell is reduced. The aim of present study was to investigate the influence of ghrelin administration on the development of acute pancreatitis. Methods: Acute pancreatitis was induced in rat by caerulein injection. Ghrelin was administrated twice (30 min prior to the first caerulein or saline injection and 3 h later) at the doses: 2, 10 or 20 nmol/kg. Immediately after cessation of caerulein or saline injections the following parameters were measured: pancreatic blood flow, plasma lipase activity, plasma interleukin-1beta (IL-1beta) and interleukin 10 (IL-10) concentration, pancreatic DNA synthesis, and morphological signs of pancreatitis. Results: Administration of ghrelin without induction of pancreatitis did not affect significantly any parameter tested. Caerulein led to the development of acute edematous pancreatitis. Treatment with ghrelin at the dose 2 nmol/kg, during induction of pancreatitis, was without effect on pancreatic histology or biochemical and functional parameters. Treatment with ghrelin at the dose 10 and 20 nmol/kg attenuated the development of pancreatitis and the effects of both doses were similar. Administration of ghrelin (10 or 20 nmol/kg) reduced inflammatory infiltration of pancreatic tissue and vacuolization of acinar cells. Also, plasma lipase activity and plasma IL-1beta conc; concentration were reduced, and caerulein-induced fall in pancreatic DNA synthesis was reversed. Administration of ghrelin at the dose 10 and 20 nmol/kg was without effect on caerulein-induced pancreatic edema and pancreatitis-related fall in pancreatic blood flow. Conclusions: (1) Administration of ghrelin attenuates pancreatic damage in caerulein-induced pancreatitis; (2) Protective effect of ghrelin administration seems to be related the inhibition in inflammatory process and the reduction in liberation of pro-inflammatory IL-1beta.

Influence of leptin administration on the course of acute ischemic pancreatitis

Leptin is involved in the regulation of food intake and previous studies have shown that leptin affects the inflammatory response in various tissues. The objective of this study was to examine the influence of leptin administration on the development and the course of acute ischemic pancreatitis. Acute pancreatitis was induced by limitation of pancreatic blood flow by clamping of inferior splenic artery for 30 min, followed by reperfusion. Leptin was administered three times daily at the dose 10 or 50 microg/kg. Animals were sacrificed 1, 3, 5, 10 and 21 days after removal of vascular clips. Administration of leptin reduced development of pancreatic damage and accelerated pancreatic regeneration what was manifested by the improvement of pancreatic histology, the decrease in serum lipase and amylase activity, and the reduction in serum interleukin-1beta concentration. Also, treatment with leptin caused the increase in the pancreatic blood flow and pancreatic DNA synthesis. Leptin administration was without effect on serum interleukin-10 concentration. Leptin at the dose 50 microg/kg was more effective than 10 microg/kg. We conclude that leptin reduces the pancreatic damage in the course of ischemic pancreatitis and accelerates the pancreatic tissue repair. The beneficial effects of leptin appear to be dependent on the improvement of pancreatic blood flow, the increase in pancreatic cell growth, and the limitation of pro-inflammatory interleukin-1beta release.

The influence of epidermal growth factor on the course of ischemia-reperfusion induced pancreatitis in rats

Acute pancreatitis is accompanied by the enhanced expression of EGF in the pancreas and the administration of EGF was found to exhibit the beneficial effect on edematous cerulein-induced pancreatitis. Therefore, we decided to determine the influence of EGF on necro-hemorrhagic pancreatitis induced by ischemia and reperfusion (I/R). Acute pancreatitis was induced in rats by restricting the pancreatic blood flow (PBF) in the inferior splenic artery for 30 min using microvascular clips. EGF was administered three times daily (10 microg/kg per dose s.c.) starting immediately after the clips removal. Rats were sacrificed on day 1, 3, 5, 10 and 21 following ischemia. PBF was measured using a laser Doppler flowmeter. Morphological signs of pancreatitis, as well as the levels of plasma amylase, lipase, interleukin-1beta and interleukin-10 concentration and pancreatic cell proliferation were examined.

RESULTS

Ischemia with reperfusion caused acute necro-hemorrhagic pancreatitis with a histological and biochemical manifestation of pancreatic damage, followed by a spontaneous regeneration. The administration of EGF caused the reduction in the histological signs of pancreatic damage, such as necrosis, edema and leukocyte infiltration, and accelerated the pancreatic repair. Also, EGF treatment significantly attenuated the reduction in pancreatic blood flow and DNA synthesis. The activity of plasma amylase and lipase, as well as plasma interleukin-1beta and interleukin-10 concentrations were decreased in EGF treated animals.

CONCLUSIONS

EGF exerts beneficial influence on the course of I/R induced pancreatitis and this effect seems to be related to the reduction in the activation of pro-inflammatory interleukin cascade, the improvement of PBF, and the increase in pancreatic cell growth.

Effect of sensory nerves and CGRP on the development of caerulein-induced pancreatitis and pancreatic recovery

The function of primary sensory neurons is to receive and transmit information from external environment and these neurons are able to release neuromediators from the activated peripheral endings. The aim of this study was to determine the influence of sensory nerves and administration of their mediator--calcitonin gene related peptide (CGRP) on the course of acute pancreatitis (AP). Ablation of sensory nerves was performed by neurotoxic dose of capsaicin (100 mg/kg). Single or repeated episodes of AP were induced by caerulein infusion (10 microg/kg/h for 5 h). Five repeated AP were performed once a week. Capsaicin at the dose which stimulates sensory nerves (0.5 mg/kg/dose) or CGRP (10 microg/kg/dose) was administrated before and during or after single induction of AP, as well as, after each induction of repeated AP. Rats were killed at the time 0, 3 or 9 h after single induction of AP or two weeks after last induction of repeated AP. Ablation of sensory nerves aggravated pancreatic damage in caerulein-induced AP. Treatment with stimulatory doses of capsaicin or CGRP before and during single induction of AP attenuated the pancreatic damage in morphological examination. This effect was also manifested by partial reversion of AP evoked drop in DNA synthesis and pancreatic blood flow (PBF). Administration of CGRP after single AP induction aggravated histologically manifested pancreatic damage. The further decrease in PBF and DNA synthesis was also observed. Animals with five episodes of AP showed almost full pancreatic recovery two weeks after last induction of AP concerning all parameters tested. In stimulatory doses of capsaicin treated rats, we observed the decrease in pancreatic amylase and fecal chymotrypsin activity, as well as, the drop in DNA synthesis. Similar but less pronounced effects were observed after treatment with CGRP. We conclude that effect of sensory nerves and CGRP on AP is two-phase and time dependent. Stimulation of sensory nerves or the administration of CGRP during development of AP exhibits protective effects against pancreatic damage induced by caerulein overstimulation. After induction of AP, persistent activity of sensory nerves and presence of CGRP aggravate pancreatic damage and lead to functional insufficiency typical for chronic pancreatitis.

Hepatocyte growth factor attenuates pancreatic damage in caerulein-induced pancreatitis in rats

Hepatocyte growth factor (HGF) overexpression was reported in experimental and clinical acute pancreatitis. These observations prompted us to determine the effect of HGF administration on the development of caerulein-induced pancreatitis in rats. Acute pancreatitis was induced by s.c. infusion of caerulein (10 microg/kg/h) for 5 h. HGF was administrated twice (30 min before caerulein or saline infusion and 3 h later) at the doses: 0.4, 2, 10 or 50 microg/kg s.c. Immediately after cessation of caerulein or saline infusion, the pancreatic blood flow, plasma amylase and lipase activity, plasma cytokines concentration, cell proliferation, and morphological signs of pancreatitis were examined. Caerulein administration induced acute edematous pancreatitis manifested by 41% decrease in DNA synthesis, 53% inhibition of pancreatic blood flow, a significant increase in plasma amylase and lipase activity, plasma interleukin-1beta and interleukin-6 concentration, as well as, the development of the histological signs of pancreatic damage (edema, leukocyte infiltration, and vacuolization). Administration of HGF without induction of pancreatitis increased plasma interleukin-10. Treatment with HGF, during induction of pancreatitis, increased plasma interleukin-10 and attenuated the pancreatic damage, what was manifested by histological improvement of pancreatic integrity, the partial reversion of the drop in DNA synthesis and pancreatic blood flow, and the reduction in pancreatitis evoked increase in plasma amylase, lipase, and interleukin-1beta and interleukin-6 levels. HGF administrated at the dose 2 microg/kg exhibited a similar beneficial effect as administration of HGF at the doses 10 or 50 microg/kg. Treatment with HGF at the dose 0.4 microg/kg was less effective. We conclude that: (1) administration of HGF attenuates pancreatic damage in caerulein-induced pancreatitis; (2) this effect seems to be related to the increase in production of interleukin-10, the reduction in release of interleukin-1beta and interleukin-6, and the improvement of pancreatic blood flow.

Histamine in stress ulcer prophylaxis in rats

BACKGROUND

Gastrin and its analogues increase the gastric acid secretion, but also enhance mucosal defense mechanisms. On the other hand, increased formation of histamine leading to an increase in gastric acid secretion is accompanied with gastroprotection and acceleration of gastric ulcer healing.

AIM

Of this study was to examine the effect of histamine on stress induced gastric ulcers in rats.

METHODS

Male Wistar rats were exposed to water immersion and restrain stress (WRS) for 3.5 h at 23 degrees C. Before WRS rats were pretreated with saline, histamine, ranitidine or omeprazole.

RESULTS

WRS produces gastric lesions which were strongly reduced by ranitidine or omeprazole. Also treatment with histamine markedly reduced ulcer area evoked by WRS. Addition of histamine to ranitidine or omeprazole caused an additional reduction in ulcer area. Gastroprotective effect of histamine was accompanied with the increase in gastric blood flow (GBF). Administration of omeprazole or ranitidine alone was without significant effect on GBF. Histamine caused an slight decrease in gastric luminal pH, whereas ranitidine or omeprazole significantly increased gastric luminal pH. Plasma interleukin-1beta was significantly reduced after administration of omeprazole, ranitidine, or histamine, however, the effect of histamine was less pronounced. DNA synthesis was increased after administration of omeprazole, ranitidine or histamine when compared with WRS alone. Administration of histamine in combination with ranitidine or omeprazole caused an additional increase in DNA synthesis.

CONCLUSIONS

Histamine exhibits protective effect and increases gastroprotective effect of ranitidine and omeprazole against stress-induced gastric lesions. This effect of histamine seems to be independent on gastric acid secretion but related to the increase in gastric blood flow and the reduction in activation of cytokine cascade.

Pancreatic damage and regeneration in the course of ischemia-reperfusion induced pancreatitis in rats

The objective of this study was to assess the biochemical and histological signs of pancreatic damage development and pancreatic recovery in the course of ischemia-reperfusion induced pancreatitis. Acute pancreatitis was induced in rats by limitation of pancreatic blood flow (PBF) in inferior splenic artery for 30 min using microvascular clips, followed by reperfusion. Rats were sacrificed at the time: 1 h, 12 h, 24 h, and 2, 3, 5, 7, 10, 14, 21 and 28 days after ischemia. PBF was measured using laser Doppler flowmeter. Plasma amylase, interleukin 1beta (IL-1beta) and interleukin 10 (IL-10) concentration, pancreatic DNA synthesis, as well as, morphological features of pancreatic damage were examined. Ischemia with reperfusion caused acute necrotizing pancreatitis followed by pancreatic regeneration. After removal of microvascular clips, PBF was reduced and the maximal fall of PBF was observed 24 h after ischemia, then PBF grew reaching the control value at 28th day. Plasma amylase activity was increased between 12th h and 3rd day with maximum at 24 h after ischemia. Also plasma IL-1beta and IL-10 were elevated with maximal value at the first and second day after ischemia, respectively. DNA synthesis was maximally reduced at the first day (by 70%) and from second day the reversion of this tendency was observed with full restoration of pancreatic DNA synthesis within four weeks. Morphological features of pancreatic tissue showed necrosis, strongly pronounced edema and leukocyte infiltration. Maximal intensity of morphological signs of pancreatic damage was observed between first and second day of reperfusion. During pancreatic regeneration between second and tenth day after ischemia the temporary appearance of chronic pancreatitis-like features such as fibrosis, acinar cell loss, formation of tubular complexes and dilatation of ducts was observed. The regeneration was completed within four weeks after pancreatitis development. We conclude that partial and temporary pancreatic ischemia followed by reperfusion causes acute necrotizing pancreatitis with subsequent regeneration within four weeks. Pancreatic repair after necrotizing pancreatitis is connected with the increase in plasma IL-10 concentration and transitory formation of tubular complexes.

Morphological changes and morphological-functional correlations in acute experimental ischemia/reperfusion pancreatitis in rats

The etiology of acute pancreatitis, apart from alcohol abuse and cholelithiasis may also include a vascular component responsible for pancreatic ischemia. It is now acknowledged that chronic pancreatitis may be a consequence of the acute variant, but it remains unclear what factors influence this sequence of morphological changes. In order to clarify this issue we proposed a model of experimental acute pancreatitis in rats induced by a 30 min reduction of blood flow in inferior splenic artery followed by reperfusion. Rats were sacrificed at 1 h, 12 h, 24 h, and 2, 3, 5, 7, 14, 21, 28 days after cessation of ischemia. We performed histopathological examination of pancreatic tissue and measured pancreatic blood flow, plasma amylase activity and interleukin-1 beta concentration. The present findings indicate that transient pancreatic ischemia leads to the development of acute necro-haemorrhagic pancreatitis. The morphological features of acute inflammation are correlated positively with functional disorders. In some cases the features of chronic pancreatitis may appear transiently after the acute phase, whereas the repair of postinflammatory injury involves the regeneration of acinar cells.

Comparison of epidermal growth factor and transforming growth factor-beta1 expression in hormone-induced acute pancreatitis in rats

Overexpression of transforming growth factors (TGF) in acute pancreatitis (AP) suggested that these substances play an important role in pancreatic repair and remodeling but the contribution of epidermal growth factor (EGF), that is well known to promote cell growth and regeneration, has not been investigated. The aim of this study was to compare the gene and immunohistochemical expression of EGF and TGF-beta1, cell proliferation, and biochemical parameters in AP induced by infusion of a supramaximal dose of caerulein in rats. The rats were sacrificed at 0, 12, 24, 48, 72 h, 5 and 10 days after the termination of caerulein infusion. Pancreatic tissue DNA synthesis, cell proliferation, histological and immunohistochemical assessments and plasma amylase were estimated following induction of AP. The mRNA expression for EGF and TGF-beta1 was evaluated by reverse transcription-polymerase chain reaction. During 10 days of the study after induction of AP a gradual normalization of biochemical and histological parameters was observed. DNA synthesis and cell proliferation which were significantly decreased at 0 and 24 h, increased significantly at 48 and 72 h, and then gradually decreased reaching at day 10 the values similar to those of vehicle-treated control rats. In these control rats the EGF mRNA or immunohistochemical expression was not detected, while the TGF-beta1 expression was weak. After induction of AP, the mRNA and immunohistochemical expression of EGF showed an increase during the initial 5 days, while those of TGF-beta1 showed a marked increase between 0 and 48 h and then again at day 10. We confirm that: (1) the expression of TGF-beta1 during AP is biphasic with an initial increase probably related to pancreatic damage and inhibition of cell proliferation and with the later phase of increase accompanied by the stimulation of the synthesis of extracellular matrix components and (2) AP is accompanied by an induction of synthesis of EGF that occurs in the initial phase of AP, probably limiting the extent of AP, and enhancing the stimulation of the pancreatic repair and regeneration.

The influence of sensory nerves and CGRP on the pancreatic regeneration after repeated episodes of acute pancreatitis in rats

Stimulation of capsaicin sensitive nerves or administration of calcitonin gene-related peptide (CGRP) before induction of acute pancreatitis (AP) attenuates pancreatic damage, whereas CGRP administration after development of AP aggravates lesion of pancreatic tissue. The aim of this study was to determine the effect of prolonged activity of sensory nerves or CGRP administration on the pancreatic repair after repeated episodes of AP. Five episodes of acute caerulein-induced pancreatitis (10 microg/kg/h for 5 h s.c.) were performed at weekly intervals in rats receiving either vehicle or capsaicin at the sensory nerve stimulatory dose (0.5 mg/kg, 3 times daily), or CGRP (10 microg/kg, 3 times daily). Two weeks after the last induction of AP morphological signs of pancreatic damage, pancreatic blood flow (PBF), serum and pancreatic amylase activity, fecal chymotrypsin activity, pancreatic weight, pancreatic RNA and DNA content, as well as, serum interleukin-1beta (Il-1beta ) were assessed. Pancreata of animals receiving vehicle alone showed almost full recovery within two weeks after last episode of pancreatitis induction. In capsaicin-treated group of rats, we observed the increase in PBF by 44% and in serum Il-1beta concentration by 91%. The pancreatic amylase activity, fecal activity of chymotrypsin, pancreatic nucleic acids content and DNA synthesis were decreased. In rats treated with CGRP the alterations in PBF, serum Il-1beta concentration, as well as, in pancreatic and fecal activity of enzymes were similar to capsaicin treated group but less pronounced. We conclude that prolonged activity of capsaicin-sensitive sensory nerves and the presence of their main mediator-CGRP during pancreatic regeneration after AP leads to pancreatic functional insufficiency typical for chronic pancreatitis.

Gastroprotective effect of histamine and acid secretion on ammonia-induced gastric lesions in rats

BACKGROUND

Previous studies have shown that ammonia produced by Helicobacter pylori urease or administrated intragastrically exhibits a toxic effect on the gastric mucosa. In the present study we investigated the influence of histamine and gastric acid secretion on ammonia (NH4OH)-induced gastric lesions.

METHODS

The gastric mucosa in rats was exposed to NH4OH (1.5 ml of 250 mM solution) under basal conditions, after administration of histamine (1 mg/kg), urea with urease, and ranitidine (40 mg/kg subcutaneously) given alone or in combination. We measured the area of gastric lesions, gastric blood flow (GBF), plasma gastrin concentration, DNA synthesis, gastric acid secretion and gastric luminal concentration of PGE2.

RESULTS

Application of NH4OH resulted in the formation of acute gastric lesions. This effect was accompanied by a fall in GBF, a rise in gastric pH, and a reduction in mucosal DNA synthesis. Administration of histamine 30 min prior to NH4OH reduced the area of gastric lesions. This was accompanied by an increase in GBF, DNA synthesis, and prostaglandin E2 (PGE2) production. Ranitidine given prior to NH4OH enhanced gastric mucosa damage, and reduced GBF and DNA synthesis. This effect was accompanied by a reduction in gastric acid secretion. Ranitidine given prior to histamine abolished gastric acid secretion and the protective effect of histamine against NH4OH-induced damage; these effects were accompanied by a decrease in GBF, DNA synthesis, and concentration of PGE2. Pretreatment with 2% urea with urease given prior to NH4OH reduced NH4OH lesions. This effect was associated with an increase in gastric acid secretion, gastric generation of PGE2, GBF, and DNA synthesis. Ranitidine given prior to urea with urease inhibited gastric acid secretion and the gastroprotective effect of urea-urease gastroprotection.

CONCLUSIONS

Histamine and gastric secretion exhibit a protective effect against ammonia-induced gastric lesions. This effect appears to depend upon the stimulation of gastric acid secretion and PGE2 production, and the improvement of gastric microcirculation.

Epidermal growth factor accelerates pancreatic recovery after caerulein-induced pancreatitis

We examined the influence of endogenous and exogenous epidermal growth factor (EGF) on pancreatic repair after acute pancreatitis. Caerulein-induced pancreatitis was evoked in rats with intact or removed salivary glands and EGF (10 microg/kg) was administered starting 24 h after cessation of caerulein infusion. The dose of EGF 10 microg/kg was chosen because it was the most effective in preliminary experiments when 1, 10 or 50 microg/kg of EGF was used. Caerulein administration caused acute edematous pancreatitis with biochemical and histological manifestation of pancreatic damage, followed by spontaneous regeneration. The effect of salivectomy on the course of acute pancreatitis was slight, resulting in additional reduction in pancreatic blood flow, DNA synthesis and in an increase in plasma interleukin 1beta level. Treatment with EGF accelerated the healing of pancreatic damage, causing an increase in pancreatic blood flow and DNA synthesis. EGF caused faster normalization of plasma amylase and lipase activity and plasma interleukin 1beta concentration, as well as, this peptide accelerated the restoration of pancreatic amylase activity. On histological examination, EGF caused reduction of pancreatic damage and acceleration of tissue repair. We conclude that EGF reduces the severity of pancreatic damage evoked by caerulein-induced pancreatitis-related pancreatic damage and accelerates tissue repair. The beneficial effects of EGF appear to depend, at least in part, on the improvement of pancreatic blood flow, as well as on an increase of pancreatic cell growth and limitation of the activation cytokine release.

Epidermal growth factor protects against pancreatic damage in cerulein-induced pancreatitis

Epidermal growth factor (EGF) exhibits gastroprotective and ulcer-healing action. These observations prompted us to determine the influence of EGF on cerulein-induced pancreatitis (CIP) in the rat. Acute pancreatitis was induced by subcutaneous infusion of cerulein (10 microg/kg/h) for 5 h. Initially EGF was administrated twice at doses of 1, 5, 10 or 100 microg/kg s.c. (first injection 30 min prior to cerulein infusion, and the second injection 2.5 h after the start of cerulein infusion) and from this part of study 10 microg/kg was chosen for the next experiments. CIP led to a significant decrease in DNA synthesis and a reduction in pancreatic blood flow (PBF) by 42 and 30%, respectively, as well as a significant increase in pancreatic weight, plasma amylase concentration, plasma interleukin-1beta (IL-1beta) level and the development of the histological signs of pancreatic damage with marked edema, leukocyte infiltration and vacuolization of acinar cells. Treatment with EGF attenuated the pancreatic tissue damage in CIP as manifested by partial reversal of the drop in DNA synthesis and improvement of pancreatic histology. Moreover, EGF administration attenuated the fall in PBF and significantly reduced the cerulein-evoked increase in pancreatic weight. Also plasma amylase and IL-1beta were decreased in rats treated with EGF. We conclude that: (1) EGF exerts a protective effect against CIP, and (2) the beneficial activity of EGF in CIP seems to depend on the increase in pancreatic cell proliferation, the reduction in cytokine generation and the attenuation of the fall in PBF.

Calcitonin gene-related peptide can attenuate or augment pancreatic damage in caerulein-induced pancreatitis in rats

We have recently shown that treatment with calcitonin gene-related peptide (CGRP) before and during induction of acute pancreatitis exhibits a protective effect against pancreatic damage evoked by overdose of caerulein. Studies in the stomach have shown that administration of CGRP exhibits dual action on gastric mucosa, CGRP administration before induction of gastric lesions, protects gastric mucosa against damage, whereas treatment with this peptide after development of gastric ulcer exacerbates mucosal injury. These observations prompt us to determine the influence of CGRP administrated before and after induction of pancreatitis on development and evolution of pancreatic tissue damage.

METHODS

Acute pancreatitis was induced by s.c. infusion of caerulein (10 microg/kg/h) for 5 h. CGRP was administrated (10 microg/kg s.c. per dose) 30 min prior to caerulein infusion and 3 h later during caerulein infusion or at the time 1 h, 4 h and 7 h after the end of caerulein infusion. Rats were sacrificed at the time 0 h, 3 h or 9 h after cessation of caerulein administration. The pancreatic blood flow (PBF), plasma activity of amylase, plasma interleukin-1beta concentration, cell proliferation, biochemical and morphological signs of pancreatitis were examined.

RESULTS

Caerulein-induced pancreatitis (CIP) led to 42% decrease in DNA synthesis, 30% inhibition of PBF, as well as, a significant increase in pancreatic weight, plasma amylase activity, plasma interleukin-1beta concentration, and development of the histological signs of pancreatic damage (edema, leukocyte infiltration and vacuolization). Treatment with CGRP prior and during induction of CIP attenuated the pancreatic damage what was manifested by partial reversion of the drop in DNA synthesis (40.9+1.7 v. 34.2+2.0 dpm/microg DNA) and PBF (83+3% v. 70+3%). Increases in pancreatic weight and plasma interleukin-1beta were reduced. Morphology showed improvement of pancreatic integrity. Administration of CGRP after induction of CIP aggravated pancreatic damage what was manifested by additional decrease in PBF and DNA synthesis. Also pancreatic weight as well as histological signs of pancreatic damage were increased.

CONCLUSIONS

(1) Administration of CGRP before and during induction of pancreatitis protects pancreas against pancreatic damage. (2) Treatment with CGRP after development of CIP aggravates pancreatic damage.

Protective effect of calcitonin gene-related peptide against caerulein-induced pancreatitis in rats

The stimulation of sensory nerves by capsaicin exhibits the protective effect against caerulein-induced pancreatitis whereas deactivation of these nerves aggravates pancreatic damage evoked by overdose of caerulein. Calcitonin-gene related peptide (CGRP) has been identified as the prominent mediator of sensory nerves. The aim of the present study was to examine the influence of CGRP on the course of caerulein-induced pancreatitis (CIP). CIP led to a significant decrease in DNA synthesis and pancreatic blood flow (PBF) by 48% and 50% respectively, as well as a significant increase of pancreatic weight, plasma amylase concentration and development of the histological signs of pancreatic damage expressed as edema, leukocyte infiltration and vacuolization. Treatment with CGRP (2 x 10 micrograms/kg s.c.) attenuated the pancreatic tissue damage in caerulein-induced pancreatitis and completely reversed the deleterious effect of the ablation of sensory nerves on caerulein-induced pancreatitis. We conclude that CGRP exerts protective effect against caerulein-induced pancreatitis and is able to reverse the damage caused by deactivation of sensory nerves. Vasodilatation and preservation of pancreatic blood flow are involved in this effect.

Role of sensory nerves in pancreatic secretion and caerulein-induced pancreatitis

Sensory nerves are implicated in gastroprotection and regulation of visceral circulation but their role in exocrine secretion and pancreatic circulation in intact pancreas and in acute pancreatitis has not been established. We investigated the role of sensory fibers in pancreatic secretion in vivo and amylase release from pancreatic slices (containing nerve fibers) or isolated pancreatic acini, and in caerulein-induced pancreatitis. In conscious rats, the stimulation of sensory nerves by low dose of capsaicin given intraduodenally (0.25-0.5 mg/kg) reduced basal pancreatic secretion, whereas dose of 1 mg/kg increased this secretion. Deactivation of sensory nerves by neurotoxic dose of capsaicin (100 mg/kg over 3 days s.c.) 10 days before tests failed to affect basal secretion but diminished the secretion induced by feeding or the diversion of pancreatic juice. In pancreatic slices, capsaicin (10(-10)-10(-6) M) increased enzyme secretion and this response was abolished by atropine (10(-6) M) or previous deactivation of sensory nerves. In pancreatic acini, capsaicin failed to affect basal and stimulated amylase secretion in response to caerulein or urecholine. In intact rats, stimulatory dose of capsaicin (0.5 mg/kg i.g.) caused about 32% increase of pancreatic blood flow and it was without any effect on the pancreatic DNA synthesis, weight, RNA, DNA and protein content. In contrast, neurotoxic dose of capsaicin caused a reduction (by 27%) in pancreatic blood flow followed by a significant decrease in RNA content and DNA synthesis in pancreatic tissue. Infusion of caerulein (10 g/kg-h) for 5 h produced acute edematous pancreatitis accompanied by over 60% decrease in DNA synthesis, nearly 50% inhibition of pancreatic blood flow, and a significant increase in pancreatic weight, protein content and plasma amylase concentration. Stimulatory dose of capsaicin attenuated the pancreatic tissue damage in caerulein induced pancreatitis, as manifested by a significant reversal of pancreatic blood flow and DNA synthesis decrease. Capsaicin induced inactivation of sensory nerves prior to pancreatitis caused an increase of all parameters of pancreatic damage; pancreatic blood flow dropped by 68%, DNA synthesis decreased by 70%; pancreatic weight, protein content and plasma amylase were also significantly enhanced. We conclude that sensory neurons are involved in the regulation of pancreatic secretion by an indirect mechanism and exhibit a beneficial effect on the pancreatic integrity, mainly due to improving the pancreatic blood flow.

Expression of transforming growth factor-beta 1 and epidermal growth factor in caerulein-induced pancreatitis in rat

Growth factors such as TGF-beta 1 and EGF are known to modulate the deposition of extracellular matrix components and tissue repair and to affect the cellular growth but their expression in the course of pancreatitis has not been studied. In this study we investigated the gene expression of TGF-beta 1 mRNA and EGF mRNA and other parameters of the pancreas including DNA synthesis, blood flow (PBF), tissue protein content and plasma amylase during the induction of acute pancreatitis. Supramaximal dose of cearulein (10 mg/kg/h s.c.) was infused for 5 h to induce pancreatitis. Animals were killed after 1, 2, 3, 4 and 5 h of infusion. The PBF was measured, blood samples were withdrawn to determine serum amylase concentration, biopsy samples were taken to measure the protein content and DNA synthesis. Expression of TGF-beta 1 and EGF mRNA was studied by reverse-transcription of polymerase chain reaction (RT-PCR). Caerulein infused caused a time-dependent decrease in DNA synthesis accompanied by gradual decrease of PBF and significant increase in pancreatic weight. The pancreatic protein content and plasma amylase showed progressive rise during 5 h of cearulein infusion. Histology revealed tissue edema, cellular vacuolization and prominent leukocyte infiltration after 3 h of cearulein infusion. TGF-beta 1 mRNA was strongly expressed at each time interval beginning from the 1 h after the start of cearulein infusion. In contrast, EGF mRNA was detected only at 5 h after induction of pancreatitis. We conclude that 1) the development of caerulein-induced pancreatitis results in the inhibition of pancreatic growth and the reduction in PBF accompanied by enhanced expression of TGF-beta 1; 2) The expression of EGF that was observed at the end of the induction of pancreatitis may indicate the initiation of pancreatic repair; 3) TGF-beta 1 seems to lead to subsequent induction of EGF that may stimulate the regeneration of injured pancreas.

Adaptation of the pancreas to repeated caerulein administration in rats. A morphological and functional study

We studied the ability of the pancreas in the aspect of histological, biochemical and functional changes (pancreatic blood flow, serum and pancreatic amylase levels, DNA and RNA content and pancreatic mass) to recover from repeated episodes of caerulein-induced acute pancreatitis. The experiment was carried out in three animal groups: group I receiving one infusion of caerulein, group II receiving two infusions of caerulein at the interval of 10 days, and group III with three infusions every 10 days. It was found that histological signs of acute pancreatitis after the first caerulein infusion showed regression after 3 days, and the process of regeneration was almost completed after 10 days. The content of DNA and RNA correlated with the histological picture. At this time interval also the level of amylase was returning to normal. Each subsequent infusion of caerulein resulted in less enhanced tissue destruction, but regeneration started later. Pancreatic blood flow was decreased each time after induction of pancreatitis, whereas normalization was more rapid. The present findings indicate that the pancreas adapts to repeated injury, which is manifested by decreased severity of changes, but the process of regeneration is delayed.

Adaptation of pancreas to repeated caerulein-induced pancreatitis in rats

Induction by caerulein of acute pancreatitis with tissue damage and acinar cells loss is followed by recovery. We studied biochemical, histological and functional regeneration of pancreatic tissue after repeated acute pancreatitis. Pancreatitis was evoked in rats by s.c. infusion of caerulein (10 micrograms/kg/h) for 5 h. After infusion, rats were divided into three groups. First group was infused with caerulein one time, in the second group infusion of caerulein was repeated 10 days later. The third groups was infused with caerulein for the 3rd time 10 days after the 2nd infusion. Rats were sacrificed at time sequence of 0, 12, 24, 48, 72 hours and at 5th, and 10th day after last infusion of caerulein. Pancreatic blood flow (PBF) was measured using laser Doppler flowmeter. Plasma and pancreatic amylase, pancreatic weight, RNA and DNA contents, and histological changes were determined. We found that DNA and RNA content, as well, as histological changes in 1st group showed progressive regeneration after 3 days. Regeneration after 1st time caerulein-induced pancreatitis was almost completed within 10 days and amylase content in the tissue and plasma amylase level returned to normal values. Each subsequent infusion of caerulein caused significantly less pronounced destruction of the pancreatic tissue, however, the regeneration occurred progressively later than after the 1st or 2nd infusion. Tissue repair after the 2nd infusion reached peak at 5th day while after 3rd infusion at 10th day. PBF dropped after 1st caerulein induced pancreatitis by about 50% but with repeated caerulein induced pancreatitis lower decreases in PBF were observed and they returned in shorter time back to control value. These results indicate that the pancreas is able to adapt to repeated injury and this is manifested by cumulative decrease of pancreatic damage after each repetition of induction of acute pancreatitis and correlated with the preservation of PBF, however, the pancreatic tissue regeneration is significantly delayed.

Influence of capsaicin-sensitive afferent neurons and nitric oxide (NO) on cerulein-induced pancreatitis in rats

CONCLUSION

Stimulation of afferent neurons by capsaicin exerts protective activity against cerulein-induced pancreatitis. This action is dependent on endogenous release of nitric oxide (NO). Deactivation of afferent neurons by high doses of capsaicin contributes to the severity of pancreatitis. This action involves mainly decreased pancreatic blood flow (PBF). Afferent nerves and NO cooperate in the maintenance of the integrity of pancreatic tissue.

BACKGROUND

Stimulation of capsaicin-sensitive afferent fibers protects gastric mucosa against damage and causes changes in mucosal blood flow. The aim of the present study was to determine the role of stimulation or ablation of capsaicin-sensitive neurons and NO in the course of cerulein-induced pancreatitis in the rat.

METHODS

Low and high doses of capsaicin were administered to animals with pancreatitis and to those without pancreatitis. The effect of several parameters was assessed. NO activity was blocked by NG-nitro-L-arginine.

RESULTS

We found that a low dose of capsaicin administered intragastrically caused an increase in PBF. A neurotoxic dose of capsaicin caused a decrease in PBF, RNA content, and DNA synthesis. Pancreatitis led to a significant decrease in PBF and DNA synthesis, but an increase in pancreatic weight, protein content, plasma amylase concentration, and neutrophil adherence. Stimulatory doses of capsaicin attenuated the pancreatic tissue damage of pancreatitis, and alteration of PBF, DNA synthesis, and neutrophil adherence. Capsaicin-induced ablation of afferent neurons caused an increase in all indicators of pancreatic damage. Blocking NO enhanced pancreatic damage, and this was reversed by addition of L-arginine.

The role of capsaicin-sensitive sensory neurons and nitric oxide in regulation of gastric mucosal growth

Capsaicin and nitric oxide (NO) cause potent vasorelaxation which is important in gastroprotective activity against damage but the mechanisms underlying these effects have not been elucidated. This study investigated the influence of capsaicin-induced functional ablation of afferent neurons and inhibition of NO production on the gastric mucosal growth in normal conditions, after 48 h fasting and subsequent refeeding. We found that ablation of sensory neurons by capsaicin pretreatment (100 mg/kg over 3 days) reduced by around 45% the mucosal blood flow (MBF), as measured by laser Doppler flowmetry, in normal fed and refed rats, while by 15% only in fasted animals. This last group of animals had significant decrease in the MBF even in control conditions as compared to that recorded in fed animals. This drop in MBF after capsaicin-induced denervation was accompanied by a significant decrease in DNA synthesis (by 40% in control group and 35% in refed rats) and was less pronounced in the group of fasted rats (23%). Ablation of sensory neurons resulted in the decrease in the stomach weight and RNA content in regular feed and refed but not in 48 h fasted group of animals. Treatment with NG-nitro-L-arginine (L-NNA; 2 x 20 mg/kg daily s.c.), a selective blocker of NO synthase, significantly suppressed the MBF in all three groups of animals tested but this suppression was less pronounced when compared to capsaicin pretreatment. This inhibitory effect of L-NNA on MBF was fully antagonized by L-arginine (2 x 100 mg/kg daily s.c.). L-NNA injection s.c. reduced the DNA synthesis (36% control group, 38% refed animals, 18% fasted rats), stomach weight, RNA and DNA content in all tested groups of rats. This inhibition was reversed by the addition of L-arginine. The combination of capsaicin and L-NNA decreased the MBF significantly and the inhibition was stronger than the effect of each substance given alone. In normal fed and refed rats, the neurotoxic dose of capsaicin together with L-NNA significantly decreased the DNA synthesis, stomach weight, RNA and DNA content but these effects were smaller than the sum of the effects of each agent given alone. We conclude that both the capsaicin-induced denervation and the suppression of endogenous NO by L-NNA inhibit the growth of the gastric mucosa by the mechanism involving, at least in part, the suppression of gastric mucosal blood flow.