Standards in monitoring acute experimental pancreatitis

Acute pancreatitis: animal models and recent advances in basic research

Acute pancreatitis (AP) is characterized by edema, acinar cell necrosis, hemorrhage, and severe inflammation of the pancreas. Patients with AP present with elevated blood and urine levels of pancreatic digestive enzymes, such as amylase and lipase. Severe AP may lead to systemic inflammatory response syndrome and multiorgan dysfunction syndrome, which account for the high mortality rate of AP. Although most (>80%) cases of AP are associated with gallstones and alcoholism, some are idiopathic. Although the pathogenesis of AP has not yet been elucidated, a common feature is the premature activation of trypsinogen within pancreatic tissues, which triggers autodigestion of the gland. Recent advances in basic research suggest that etiologic factors including cyclooxygenase-2, substance P, and angiotensin II may have novel roles in this disease. Basic research data obtained thus far have been based on animal models of AP ranging from mild edematous pancreatitis to severe necrotizing pancreatitis. In view of this, an adequate selection of experimental animal models is of paramount importance. Notwithstanding these animal models, it should be emphasized that none of these models mimic the clinical situation where varying degrees of severity usually occur. In this review, commonly used animal models of AP will be critically evaluated. A discussion of recent advances in our knowledge about AP risk factors is also included.

DOES MATRIX METALLOPROTEINASE ACTIVITY PREDICT SEVERITY OF ACUTE PANCREATITIS?

BACKGROUND

Matrix metalloproteinases (MMP) modulate end-organ complications of acute pancreatitis, but the correlation between increased MMP production and histological severity of disease remains unclear. We examined the role of MMP and pancreas histology on experimental acute pancreatitis.

METHODS

Forty male Wistar albino rats were subjected to cerulein-induced pancreatitis (8, 16, 24 and 32 h groups) or sham treatment. The animals were killed at different time points and pancreatic tissues were harvested to assess MMP (1, 2 and 9) activity and inflammatory changes.

RESULTS

Compared with other groups, 8 h group had decreased tissue MMP-1 concentrations. MMP-9 concentrations were lower in 24-h and 32-h groups, as were histological severity scores. MMP-2 activity did not differ among groups. Pancreatitis was prominent in 8-h, 16-h and 24-h groups by means of histology.

CONCLUSION

Induction of pancreatitis by cerulein altered pancreatic MMP levels in the early phase of inflammation. Inhibition of MMP-2 and MMP-9 paralleled histological scores. Therefore, MMP may have a predictive value to assess histological severity.

Prophylactic and therapeutic treatments with AT 1 and AT 2 receptor antagonists and their effects on changes in the severity of pancreatitis

Previous studies showed that a local pancreatic renin-angiotensin system (RAS) was upregulated in experimental acute pancreatitis. RAS inhibition could attenuate pancreatic inflammation and fibrosis, which casts a new light on the role of the pancreatic RAS in pancreatitis. The present study explores the prophylactic and therapeutic potentials, and possible molecular mechanism for the antagonism of angiotensin II receptors on the changes in the severity of pancreatic injury induced by acute pancreatitis. Experimental pancreatitis was induced by an intraperitoneal injection of supra-maximal dose of cerulein. The differential effects of angiotensin II receptors inhibitors losartan and PD123319 on the pancreatic injury were assessed by virtue of using the pancreatic water content, biochemical and histological analyses. Blockade of the AT(1) receptor by losartan at a dose of 200microg/kg could markedly ameliorate the pancreatic injury induced by cerulein, as evidenced by biochemical and histopathological studies. However, blockade of the AT(2) receptor by PD123319 appeared not to provide any beneficial role in cerulein-induced pancreatic injury. Both prophylactic and therapeutic treatments with losartan were effective against cerulein-induced pancreatic injury. The protective action of losartan was linked to an inhibition of NAD(P)H oxidase activity, thus consequential oxidative modification of pancreatic proteins in the pancreas. Inhibition of the AT(1) receptor, but not AT(2) receptor, may play a beneficial role in ameliorating the severity of acute pancreatitis. The differential effects of AT(1) and AT(2) inhibitors on cerulein-induced pancreatic injury might be due to the distinctive mechanism of the AT(1) and AT(2) receptors on the activation of NAD(P)H oxidase. Thus the protective role of AT(1) receptor antagonist, losartan, could be mediated by the inhibition of NAD(P)H oxidase-dependent generation of reactive oxygen species (ROS).

Temporal expression and activation of matrix metalloproteinases-2, -9, and membrane type 1-matrix metalloproteinase following acute hindlimb ischemia

OBJECTIVE

Matrix metalloproteinase (MMP) activity is essential for remodeling of ischemic tissue. The murine hindlimb ischemia model exhibits tissue remodeling including revascularization in part due to angiogenesis. MMP-2 and -9 are type IV collagenases necessary for basement membrane degradation as a part of extracellular matrix remodeling and angiogenesis. Polymorphonuclear leukocytes (PMNs) contain MMP-9, and in the presence of membrane type 1 (MT1)-MMP, are able to activate proMMP-2 in vitro. Activation of MMP-2 and -9 may be essential in ischemic limbs both for tissue remodeling and revascularization via angiogenesis. We hypothesized that MMP-2 and -9 would be activated following acute hindlimb ischemia (HI), and this activation would be temporally related to PMN infiltration.

DESIGN OF STUDY

HI was achieved by unilateral femoral artery ligation in 20 FVB/N mice. Five mice underwent sham operation without hindlimb ischemia. Gastrocnemius muscle was harvested from both hindlimbs at 1, 3, 14, and 30 days following ligation and assayed for MMP-2, -9 (gelatin zymography), and MT1-MMP (Western blotting). MMP-2 and -9 expression and activation were analyzed by gelatin zymography and quantified by densitometry with NIH Image Analysis software. Neutrophils per high power field were counted. The results were expressed as a ratio of ischemic to nonischemic limbs and compared at each time point using ANOVA.

RESULTS

Zymographic analysis revealed a 212% increase in active MMP-2 3 days postligation (P <.05). Active MMP-9 reached its maximum level (800% over baseline) on postoperative day 3 and continued to be elevated on day 14 (737% over baseline) (P <.05). The increase in active MMP-2 and -9 levels paralleled PMN infiltration that also peaked 3 days postligation (1184% over baseline) (P <.05). PMN count, MMP-2, and -9 all returned to baseline levels by postoperative Day 30. MT1-MMP was present in tissue samples from all time points as confirmed by Western blot.

CONCLUSIONS

Limb ischemia causes an early activation of MMP-2 and -9 in temporal relation to PMN infiltration. HI may prime PMNs, leading to their sequestration in ischemic tissue. Primed PMNs, along with constitutively expressed MT1-MMP, may activate MMPs-2 and -9 and enable tissue remodeling essential for limb revascularization and angiogenesis.

Saralasin, a nonspecific angiotensin II receptor antagonist, attenuates oxidative stress and tissue injury in cerulein-induced acute pancreatitis

INTRODUCTION

Free radical-mediated pancreatic injury is believed to play a key role in the pathogenesis of acute pancreatitis. Most of these studies have focused on the effects of antioxidant enzymes and free radical scavengers on improving the pancreatic injury. Recent findings showed that cerulein-induced acute pancreatitis was associated with an upregulation of a local pancreatic renin-angiotensin system in the pancreas. In the current study we hypothesized that inhibition of this renin-angiotensin system by saralasin, a nonspecific antagonist for angiotensin II receptor, could attenuate the severity of cerulein-induced pancreatitis.

METHODOLOGY

The effects of saralasin on oxidative stress and tissue injury in cerulein-induced pancreatitis were assessed by histopathologic analysis and on the basis of biochemical changes of plasma alpha-amylase level, pancreatic glutathione status, oxidative modification of protein, and lipid peroxidation.

RESULTS

Data from the biochemical analysis showed that intravenous injections of saralasin at doses of 10 microg/kg to 50 microg/kg 30 minutes before the induction of acute pancreatitis significantly reduced pancreatic injury, as indicated by a decrease in plasma alpha-amylase activity in comparison with the cerulein-treated control. The effect of saralasin was further manifested by significant suppressions of glutathione depletion, oxidative modification of proteins, and lipid peroxidation in cerulein-treated rat pancreas. Histopathologic examination findings were in agreement with the biochemical data.

CONCLUSIONS

These data suggest that prophylactic administration of saralasin can ameliorate the oxidative stress and tissue injury in cerulein-induced pancreatitis. Such a protective effect may provide new insight into the potential value of angiotensin II receptor antagonists in the clinical therapy for acute pancreatitis.

Differential effects of saralasin and ramiprilat, the inhibitors of renin-angiotensin system, on cerulein-induced acute pancreatitis

Acute pancreatitis is an inflammatory disease characterized by pancreatic tissue edema, acinar cell necrosis, hemorrhage and inflammation of the damaged gland. It is believed that acinar cell injury is initiated by the activation of digestive zymogens inside the acinar cells, leading finally to the autodigestion of the pancreas. Previous study in our laboratory demonstrated that cerulein-induced acute pancreatitis was associated with an up-regulation of local renin-angiotensin system (RAS) in rat pancreas. Therefore, the utilization of RAS inhibitors may provide a novel and alternative treatment for acute pancreatitis. By means of a rat model of cerulein-induced acute pancreatitis, results from the present study showed that an intravenous injection of saralasin, an antagonist for angiotensin II receptors, at a dose of 40 microg/kg 30 min before the induction of acute pancreatitis significantly attenuated pancreatic edema. Results from the biochemical measurements showed that pretreatment with saralasin at a dose of 20 microg/kg markedly reduced pancreatic injury, as evidenced by the decreased activities of alpha-amylase and lipase in plasma. However, the same recipe of ramiprilat, a specific inhibitor for angiotensin-converting enzyme, at a dose of 20 microg/kg did not provide any protective effect against acute pancreatitis. On the contrary, pretreatment with ramiprilat at a dose 40 microg/kg enhanced cerulein-induced pancreatic injury. Results from histopathological analysis of these RAS inhibitors further confirmed with those results as obtained from biochemical analysis. These data indicate that administration of saralasin but not ramiprilat could be protective against acute pancreatitis and that activation of pancreatic RAS in acute pancreatitis may play a role in pancreatic tissue injury.

Increased matrix metalloproteinase expression and activation following experimental acute pancreatitis

BACKGROUND

The observation that matrix metalloproteinases (MMPs) are central to tissue remodeling and may contribute to organ failure prompted us to investigate the role of MMPs in acute pancreatitis. We hypothesize that increased expression and activation of MMP-2 and MMP-9 will correlate with organ injury following acute pancreatitis.

METHODS

Acute pancreatitis was induced in five male rats by retrograde infusion of 5% sodium taurocholate into the pancreatic duct. Sham laparotomy was performed on five rats serving as a control. Pancreatitis was confirmed by histology and serum amylase levels. MMP-2 and MMP-9 activity and expression were assayed by gelatin zymography in the lungs and ascitic fluid of each animal. Lung permeability was assayed by Evans blue dye extravasation. Lung activity of MMP-2 and MMP-9 was confirmed by a specific fluorogenic MMP substrate assay.

RESULTS

Lung permeability increased twofold in the animals with severe pancreatitis compared with sham. Analysis of the zymograms from lung homogenate revealed a threefold increase in active MMP-2 in severe pancreatitis compared with sham and no change in MMP-9 activity. Gelatin zymograms of peritoneal fluid from severe pancreatitis animals demonstrated increased levels of active MMP-2 and MMP-9 compared with the sham group. Increases in MMP activity were confirmed by MMP activity assay using a fluorogenic substrate.

CONCLUSIONS

This study demonstrates a correlation between severity of acute pancreatitis and active MMP-2 and MMP-9 levels in the peritoneal fluid and MMP-2 activity in lung homogenate. The MMP-mediated degradation of the basement membrane offers a potential pharmacologic and therapeutic target for halting the final biologic outcome of severe pancreatitis.

Phospholipase A2 isoforms in acute pancreatitis

OBJECTIVE

To assess phospholipase A2 isoforms during human and experimental acute necrotizing pancreatitis. Phospholipase A2 isoforms (group I, II, and IV) were examined in acute pancreatitis tissues in humans and rats to determine whether the exocrine pancreas itself is a source of these mediators.

SUMMARY BACKGROUND DATA

Phospholipase A2 has important regulatory functions, especially in inflammation.

METHODS

Using Northern blot analysis and immunohistochemistry, the expression and localization of phospholipase A2 isoforms were analyzed in pancreatic tissue obtained from 21 patients with acute necrotizing pancreatitis and in pancreatic tissues of rats with acute edematous and necrotizing pancreatitis. Rat samples were examined daily for 1 week.

RESULTS

In human acute pancreatitis, phospholipase A2-I mRNA expression was 8.9-fold decreased. By contrast, phospholipase A2-II (7.8-fold) and phospholipase A2-IV (8.1-fold) mRNA levels were increased. By in situ hybridization, phospholipase A2-IV was found to be expressed in remaining acinar and ductal cells adjacent to the necrotic areas. Immunostaining revealed moderate to intense phospholipase A2-II immunoreactivity in remaining acinar and ductal cells next to the necrosis. In rat pancreatitis, phospholipase A2-II mRNA levels in the pancreas were unchanged in the early phase (8 hours) but markedly increased after 24 hours, with a fluctuating pattern until day 7.

CONCLUSIONS

Enhanced expression of phospholipase A2-II and A2-IV isoenzymes in human and experimental acute pancreatitis suggests that these enzymes play a role in modulating the inflammatory reaction in the pancreas. Because phospholipase A2-II and A2-IV mRNA was strongly present in remaining viable pancreatic acinar and ductal cells, the pancreas itself seems to be at least partly a source and a regulator of phospholipase A2-II- and A2-IV-dependent inflammatory reactions in acute pancreatitis.

Proteases and protease inhibitors in cerulein-induced acute pancreatitis in rats

BACKGROUND

Proteases and protease inhibitors are important in acute pancreatitis (AP), although little is known about the time course in cerulein-induced AP in the rat.

MATERIALS AND METHODS

AP was induced by supramaximal stimulation of cerulein, 10 microgram/kg/h, and during 72 h we measured lipase, amylase, albumin, prekallikrein, factor X, alpha(1)-protease inhibitor, alpha(1)-macroglobulin, alpha(2)-antiplasmin, antithrombin III (all in plasma) and macroscopic and histologic variables.

RESULTS

Within 12 h an edematous pancreatitis was evident with peak values of peritoneal exudate, pancreatic wet weight ratio, and plasma amylase and lipase activities. Histologically, edema and vacuolization were prominent already after 3 and 6 h, respectively, while inflammation, necrosis, and total histological score gradually increase to reach peak levels at 48 h. Proenzymes and most plasma protease inhibitors decreased to low levels after 6-12 h followed by a gradual increase. The sequential changes over time indicate that kallikrein - kinin activation, and plasminogen activation are probably early events in cerulein-induced AP in rats. alpha(1)-Macroglobulin and alpha(1)-protease inhibitor gradually decreased during the whole study period, probably being "second line" defense inhibitors. Levels above normal were seen for alpha(2)-antiplasmin and factor X at 48 h, normalizing at 72 h.

CONCLUSIONS

These results suggest that protease activation and protease inhibitor consumption occur in cerulein-induced AP in the rat.

Hyperlipaemia intensifies the course of acute oedematous and acute necrotising pancreatitis in the rat

BACKGROUND

Serum triglyceride concentrations higher than 10 to 20 mmol/l are probably a risk factor for developing acute pancreatitis in humans.

AIMS

To therefore analyse the influence of hyperlipaemia on the course of acute oedematous and acute necrotising pancreatitis in rats.

SUBJECTS

Male Wistar rats were used in all experiments.

METHODS

Six different groups of animals were used: two groups without pancreatitis (controls), two with acute oedematous pancreatitis, and two with acute necrotising pancreatitis. One group from each pair was treated with Triton WR 1339, which induces endogenous hyperlipaemia. Blood samples were taken from all subjects to measure triglyceride, cholesterol, amylase, and lipase. Pancreatic tissue samples were taken and the degree of pancreatic damage was judged microscopically.

RESULTS

In the control groups no significant changes occurred, either in serum enzyme activities or in histology. The hyperlipaemic subgroup of animals with acute oedematous pancreatitis developed significantly higher (p < 0.001) serum amylase activities and a greater degree of histological damage (p < 0.01) than the animals of the non-hyperlipaemic acute oedematous pancreatitis group. In the animals with necrotising pancreatitis, serum lipase activity and the histological degree of pancreatic damage were significantly higher in the hyperlipaemic animals than in the non-hyperlipaemic animals.

CONCLUSION

This study shows that hyperlipaemia intensifies the course of acute oedematous and acute necrotising pancreatitis in rats.

Experimental models of acute pancreatitis

Various models of experimental acute pancreatitis are described. An ideal model would be reproducible, have a similar natural history to that of the human disease and a similar response to treatment. Furthermore, it should be relatively cheap and simple. Few, if any, of the available experimental models completely satisfy these criteria. The appropriate choice of model is discussed, as are possible future developments in this field.