Gastric antral ulcers produced by the combined administration of indomethacin with 2-deoxy-D-glucose in the rat

Role of brainstem TRH/TRH-R1 receptors in the vagal gastric cholinergic response to various stimuli including sham-feeding

Pavlov's pioneering work established that sham-feeding induced by sight or smell of food or feeding in dogs with permanent esophagostomy stimulates gastric acid secretion through vagal pathways. Brain circuitries and transmitters involved in the central vagal regulation of gastric function have recently been unraveled. Neurons in the dorsal vagal complex including the dorsal motor nucleus of the vagus (DMN) express thyrotropin-releasing hormone (TRH) receptor and are innervated by TRH fibers originating from TRH synthesizing neurons in the raphe pallidus, raphe obscurus and the parapyramidal regions. TRH injected into the DMN or cisterna magna increases the firing of DMN neurons and gastric vagal efferent discharge, activates cholinergic neurons in gastric submucosal and myenteric plexuses, and induces a vagal-dependent, atropine-sensitive stimulation of gastric secretory (acid, pepsin) and motor functions. TRH antibody or TRH-R1 receptor oligodeoxynucleotide antisense pretreatment in the cisterna magna or DMN abolished vagal-dependent gastric secretory and motor responses to sham-feeding, 2-deoxy-D-glucose, cold exposure and chemical activation of cell bodies in medullary raphe nuclei. TRH excitatory action in the DMN is potentiated by co-released prepro-TRH-(160-169) flanking peptide, Ps4 and 5-HT, and inhibited by a number of peptides involved in the stress/immune response and inhibition of food-intake. These neuroanatomical, electrophysiological and neuropharmacological data are consistent with a physiological role of brainstem TRH in the central vagal stimulation of gastric myenteric cholinergic neurons in response to several vagal dependent stimuli including sham-feeding.

Yogurt containing Lactobacillus gasseri OLL2716 exerts gastroprotective action against [correction of agaisnt] acute gastric lesion and antral ulcer in rats

Yogurt containing Lactobacillus gasseri OLL2716 (LG21 yogurt) is reported to improve Helicobacter pylori-induced gastric mucosal inflammation in clinical studies. However, other beneficial effects of LG21 yogurt have not been clarified. Therefore, we examined whether LG21 yogurt exhibits a gastroprotective action against acute gastric lesion or antral ulcer in rats. Moreover, the mechanism of gastroprotective action was also evaluated. After fasting, acute gastric lesions were induced by 0.6 M HCl. Gastric mucosal folds were stained by oral administration of methyl violet. Antral ulcers were induced by the combined administration of diethyldithiocarbamate and HCl in refed rats after fasting. LG21 yogurt was orally administered before HCl treatment or staining the mucosal folds. LG21 yogurt significantly and dose-dependently inhibited the formation of acute gastric lesions, and this gastroprotective action was attenuated by pretreatment with indomethacin. LG21 yogurt also significantly increased prostaglandin E2 generation in the gastric mucosa. Stained length of gastric mucosal fold was reduced by LG21 yogurt. Antral ulcer formation was also significantly inhibited by LG21 yogurt. From the above results, it was found that the ingestion of LG21 yogurt is useful for the prevention of gastric ulcer. Moreover, endogenous prostaglandin was suggested to be one of the gastroprotective mechanisms of LG21 yogurt.

Effects of vanilloid receptor agonists and antagonists on gastric antral ulcers in rats

Defunctionalization of capsaicin-sensitive afferent nerves by pretreatment with a neurotoxic dose of capsaicin aggravates gastric ulcers in rats. In the present study, we investigated the roles of vanilloid receptors in gastric antral ulcers, using vanilloid receptor agonists and antagonists. Gastric antral ulcers were induced by a combination of diethyldithiocarbamate and 1 N HCl in refed rats. The administration of ruthenium red (1.5 mg/kg, s.c., twice daily) aggravated gastric antral ulcers (ulcer index: control, 33.7+/-13.7 mm(2); ruthenium red, 99.9+/-11.0 mm(2)). A similar result was observed in rats pretreated with a neurotoxic dose of capsaicin. On the other hand, capsaicin (1-10 mg/kg, p.o., twice daily) inhibited antral ulcer formation (ulcer index: control, 99.2+/-20.6 mm(2); capsaicin 10 mg/kg, 37.0+/-11.7 mm(2)). A similar effect was obtained in rats treated with the novel antiulcer drug, lafutidine (3-10 mg/kg, p.o., twice daily), which has gastroprotective activity mediated by capsaicin-sensitive afferent nerves. The antiulcer effects of capsaicin and lafutidine were abolished by ruthenium red and by pretreatment with a neurotoxic dose of capsaicin. These results suggest that vanilloid receptors play a gastroprotective role in gastric antral ulcers. In addition, treatment with ruthenium red may be an alternative tool for defunctionalization of capsaicin-sensitive afferent nerves.

A novel method to produce extensive gastric antral ulcer in rats: pharmacological factors involved in the etiology of antral ulceration

Gastric antral area is the most susceptible region to gastric ulceration in man. However, only limited information is available on animal models. In the present paper, we have developed an improved method for inducing gastric antral ulcers by the administration of 1.0 M HCl after refeeding for 1 h in rats. On day 4, the severe ulcer was found covering extensively the whole area of the antrum, and penetrated through the muscularis mucosae. The incidence of ulceration was 100% and the mean ulcer index was 37.1 +/- 16.6 mm2. In contrast, none of the erosive lesions were observed in the corpus area. Before 24 h, only slight hyperemia was observed in the antral region, suggesting that some submucosal mechanisms are involved in the ulceration processes other than the direct erosive action of HCl on the mucosal surface. Additional treatment with diethyldithiocarbamate (125 mg x kg(-1), s.c.), superoxide dismutase inhibitor, significantly aggravated this antral ulcer, and the ulcer index was 66.0 +/- 13.6 mm2. Allopurinol (50 mg x kg(-1), p.o.) significantly prevented ulcer formation induced by HCl plus DDC. GSH (150 mg x kg(-1), i.p.) also markedly prevented the ulceration. However, DMSO (0.5%, 5 mL x kg(-1), p.o.) was found not to affect ulcer formation. Famotidine (20 mg x kg(-1), p.o.) almost completely inhibited ulcer formation. From the above results, it was concluded that gastric antral ulcer can be induced by the simple treatment of 1.0 M HCl in refed rats, and the antrum has a different defensive mechanism from that in the corpus area. In addition. oxygen derived radicals, especially superoxide anion and endogenous acid secretion were found to be involved in the etiology of the aggravation of the gastric antral ulcer induced by DDC.

Antiulcer effect of lafutidine on indomethacin-induced gastric antral ulcers in refed rats

Lafutidine is a new type antiulcer agent with antisecretory and gastroprotective activities. We investigated the effect of lafutidine on indomethacin-induced antral ulcer in refed rats. Subcutaneous indomethacin injection resulted in the formation of gastric antral ulcer. Lafutidine (1-10 mg/kg, p.o.) reduced the area of ulcer in a dose-dependent manner when administered immediately after the indomethacin injection. Capsaicin at 3 mg/kg, p.o. and 16,16-dimethyl prostaglandin E2 at 3 microg/kg, p.o. also reduced the ulcer area. Chemical deafferentation of capsaicin-sensitive neurons or N(G)-nitro-L-arginine treatment aggravated the ulcer formation and abolished the preventive effect of lafutidine and capsaicin. After the induction of gastric ulcer, lafutidine given twice daily for 2.5 days reduced the area of ulcer in a dose-dependent manner with a significant effect at 10 mg/kg, p.o., as compared with that of the control group. In chemically-deafferentated rats, lafutidine did not show any healing effect. Cimetidine (30 mg/kg, p.o.) and famotidine (1 mg/kg, p.o.) had no significant effect on indomethacin-induced antral ulcer. These results may suggest that lafutidine, unlike cimetidine and famotidine, can prevent the indomethacin-induced antral ulcer formation and accelerate the healing of the ulcer in refed rats through mechanisms involving the capsaicin-sensitive afferent neurons and nitric oxide.

Mechanism of action of intracisternal apolipoprotein A-IV in inhibiting gastric acid secretion in rats

BACKGROUND & AIMS

We recently showed that intracisternal injection of apolipoprotein A-IV (apo A-IV), a protein produced by the small intestine in response to fat, inhibits gastric acid secretion. The aim of this study was to investigate the mechanism of acid inhibition by central apo A-IV.

METHODS

Gastric acid secretion was determined in pylorus-ligated conscious rats. The effect of intracisternal injection of apo A-IV on gastric acid secretion stimulated by pentagastrin, bethanechol, or intracisternal thyrotropin-releasing hormone (central vagal stimulant) was examined. The effects of vagotomy, indomethacin, and adrenergic blockers on the acid inhibition of apo A-IV were examined to investigate the role of the vagal system, prostaglandin pathways, and adrenergic system.

RESULTS

Intracisternal apo A-IV significantly inhibited pentagastrin-, bethanechol-, and thyrotropin-releasing hormone-stimulated gastric acid secretion in a similar fashion. Inhibition of pentagastrin-stimulated acid secretion by apo A-IV still occurred even in vagotomized rats. Yohimbine but not indomethacin or propranolol eliminated apo A-IV--induced inhibition of acid.

CONCLUSIONS

Intracisternal apo A-IV inhibits gastric acid secretion through alpha 2-adrenergic receptors. The vagal pathway and the prostaglandin system are not involved in apo A-IV--induced acid inhibition.

Gastric mucosal damage induced by 2-deoxy-D-glucose involves medullary TRH in the rat

These studies examined the effect of 2-deoxy-D-glucose (2-DG) on gastric mucosal integrity. Intravenous administration of 2-DG in doses of 100 and 125 mg/kg dose-dependently produced multiple, hemorrhagic gastric mucosal lesions while 75 mg/kg of 2-DG failed to induce gastric lesions. Intracisternal injection of 2-DG in doses of 10 and 20 mg/kg also induced gastric mucosal damage in a dose-dependent manner whereas the injection of 5 mg/kg of 2-DG intracisternally did not induce the development of gastric lesions. Gastric mucosal damage by intravenous 2-DG was completely blocked by bilateral gastric branch vagotomy. Intracisternal but not intraperitoneal injection of anti-TRH antibody 8964 significantly reduced the severity of gastric mucosal lesions evoked by intravenous administration of 2-DG. These results suggest that 2-DG acts in the brain to induce gastric mucosal damage through vagal dependent pathways. Endogenous TRH in the central nervous system may be involved in the production of gastric mucosal damage by 2-DG.

Site-specific formation of thyrotropin-releasing hormone-induced gastric ulcers through the vagal system

The left and right dorsal motor nuclei (DMN) separately innervate the anterior and posterior gastric walls through the left and right gastric branches of the vagus nerve (GBVN) in rats. The present study was carried out to investigate the effects of selective centrally originated excitation of the unilateral vagal system on the gastric area in which vagus-induced gastric ulcers developed. Since intracisternally injected thyrotropin-releasing hormone (TRH) stimulates neurons in the bilateral DMNs to produce gastric ulcers, selective stimulation of the unilateral vagal system was produced by contralateral gastric branch vagotomy before intracisternal injection of TRH. Intracisternal injection of TRH (2 micrograms/rat) into left gastric branch-vagotomized rats resulted in lesion formation only on the posterior gastric wall and not on the anterior wall. In contrast, in right gastric branch-vagotomized rats TRH-induced gastric lesions were observed only on the anterior gastric wall and not on the posterior wall. These results suggest that selective stimulation of the left or right DMN induces site-specific ulcer formation through the left or right GBVN. Next, gastric acid secretion was determined in pylorus-ligated rats to examine a role of acid hypersecretion in site-specific ulcer formation caused by TRH. Of interest was that gastric acid secretion in unilaterally vagotomized rats given TRH intracisternally was significantly smaller than that in sham-operated rats given intracisternal saline, although the former rats developed gastric ulcers, whereas the latter did not. It is therefore speculated that gastric hyperacidity plays a less important role in the peripheral mechanisms of TRH-induced site-specific gastric ulceration.

Indomethacin-induced gastric antral ulcers in hamsters

Antral ulcers account for about half of gastric ulcers in humans. An animal model was developed to produce such ulcers. Indomethacin given subcutaneously to normally fed hamsters produced antral ulcers within 1-5 h, dose dependently. These ulcers penetrated the muscularis mucosae. With repeated administration of indomethacin and longer duration of treatment, the lesions became more severe and most animals died with perforated antral ulcers after 2-5 days. Like indomethacin, aspirin given orally also produced antral ulcers in hamsters. Indomethacin reduced the formation of prostaglandin E2, prostaglandin F2 alpha, and 6-keto prostaglandin F1 alpha by the antral mucosa, and increased gastric acid output more than twofold. The ulcers were prevented by various antisecretory agents (cimetidine, methscopolamine bromide, and omeprazole), and the antiulcer dose of each of these agents corresponded to the antisecretory dose. By contrast, several prostaglandins prevented the ulcers at very low, nonantisecretory doses. 16,16-Dimethyl prostaglandin E2 prevented the ulcers at a dose nearly 3000 times lower than the gastric antisecretory ED50. The mechanism by which prostaglandins prevent formation of these ulcers is unknown, but the effect is consistent with cytoprotection, i.e., protection of the gastric mucosa by nonantisecretory doses. Indomethacin-induced antral ulcers appear to depend on two factors: a depletion of prostaglandin content of the antrum and gastric hyperacidity.

Development of stress-induced gastric lesions involves central adenosine A1-receptor stimulation

When rats were exposed to immobilization stress for 1-12 h, gastric lesions did not occur at 1-6 h but did at 12 h of immobilization. Exogenous adenosine increased stress-induced gastric lesions, and dipyridamole, a blocker of adenosine uptake, potentiated the action of adenosine. The selective adenosine A1-receptor stimulants N6-cyclohexyl adenosine (CHA) and N6-(L-phenylisopropyl) adenosine (L-PIA) produced gastric lesions even in non-stressed state and markedly potentiated in dose- and time-dependent manner in stressed state. The stimulatory effect of N6-(D-phenylisopropyl) adenosine (D-PIA) on ulceration was weaker than that of CHA or L-PIA. Furthermore, intracerebral ventricular (i.c.v.) injection of adenosine or adenosine analogues produced the most rapid and most potent exacerbation of stress-induced gastric lesions relative to those induced with subcutaneous (s.c.) injection. The stress lesions enhanced by CHA were not affected by phentolamine, yohimbine, prazosin, naloxone and cholecystokinin (CCK8) but were inhibited by caffeine, clonidine, morphine and beta-endorphin. The inhibitory effect of clonidine was not antagonized by yohimbine or prazosin. The inhibition by morphine was selectively antagonized by exogenous CCK8 as well as naloxone. These results suggest that endogenous adenosine is tonically active in stress lesion formation which is modulated by opiate systems. Clonidine as well as caffeine may function as a purinoceptor antagonist, and it seems unlikely that the inhibitory effect of clonidine on stress ulcer is due to activation of alpha-adrenoceptors.

Gastric antral ulcers induced by a combination of acid, indomethacin and ischemia in rats

Gastric antral lesions were produced with hemorrhages by vascular ligation-induced ischemia in the prepyloric regions in rats. Additional treatments with intraluminal acid application and indomethacin markedly aggravated the lesions. Histological examination showed that the incidence of ulcers which penetrated the muscularis mucosae was nearly 100% upon treatment with a combination of acid, indomethacin and ischemia. This model provides a useful tool for studying gastric ulcer etiology.

Possible involvement of non-steroidal anti-inflammatory drugs in vagal-mediated gastric acid secretion in rats

Effects of several non-steroidal anti-inflammatory drugs (NSAIDs) such as aspirin (ASA), indomethacin (IM), flurbiprofen (FP), ibuprofen (IP), phenylbutazone (PBZ) and flufenamic acid (FA) were studied on the gastric ulceration and gastric acid secretion induced by restraint and water-immersion stress (RWIS) or various secretagogues in rats. These drugs significantly increased ulcer formation. IM (1, 3 and 10 mg/kg, s.c.) reduced gastric mucosal prostaglandin (PG) content dose-dependently. There was an appreciable correlation between this decrease in the PG content of gastric tissue and associated ulceration. The gastric acid secretion induced by the peripheral secretagogues, methacholine, gastrin and histamine, was not significantly influenced by IM pretreatment. In contrast, the gastric acid secretion induced by the vagal mediated secretagogues, insulin, 2-deoxy-D-glucose (2-D-G) and RWIS, was markedly increased by IM pretreatment. These effects were not observed in vagotomized rats. By intracerebroventricular (i.c.v.) injection of IM, no influence was observed on the gastric acid secretion and ulcer formation induced by 2-D-G or RWIS. These results suggest that acidic NSAIDs potentiate the gastric acid output induced by stimulation of vagus nerve activity, and prostaglandins (PGs) may influence gastric acid output by regulating vagus nerve activity.

Enhancement by intracerebroventricular thyrotropin-releasing hormone of indomethacin-induced gastric lesions in the rat

Effects of the intracerebroventricular thyrotropin-releasing hormone (TRH) on gastric mucosa were studied in rats. TRH (3 and 10 micrograms rat-1 i.c.v.) produced slight gastric lesions and also aggravated indomethacin-, aspirin- or 5-hydroxytryptamine (5-HT)-induced gastric lesions, while restraint and cold stress-induced lesions were not influenced by TRH. Bethanechol used at a dose sufficient to produce acid secretion did not influence the gastric mucosa in intact or indomethacin-treated rats. Enhancement of indomethacin-induced gastric lesions by TRH was not inhibited to any significant degree by atropine 0.1 mg kg-1 s.c., which prevented TRH-induced gastric acid secretion, but tended to be inhibited by phentolamine, 2.5 mg kg-1 i.p. It is concluded that the enhancement by TRH of indomethacin-induced gastric lesions is due to a combination of the central and peripheral actions of the ulcerogenic agents.