Evidence against prostaglandin-mediation of somatostatin-inhibition of gastric secretions

The inhibitory activities of somatostatin and PGE2 against pentagastrin-stimulated gastric acid and pepsin secretions were investigated, with and without pretreatment with the cyclooxygenase inhibitor indomethacin, in conscious cats prepared with gastric fistulae. Somatostatin was a potent inhibitor of acid secretion in both vagus intact and vagotomized animals, and its effect was not diminished by indomethacin pretreatment. Somatostatin inhibition of pepsin secretion was diminished after indomethacin, but a similar effect was noted with exogenous PGE2, suggesting a mechanism unrelated to inhibition of prostaglandin synthesis. It is concluded that there is no evidence to implicate endogenous prostaglandins in somatostatin inhibition of feline gastric exocrine secretions.     

Prostaglandin synthesis inhibition reverses the gastric antisecretory activity of somatostatin in anaesthetized rats

The inhibitory action on somatostatin (ST) on the spontaneous and stimulated (pentagastrin 18 micrograms/kg/h i.v. and histamine 5 mg/kg/h i.v.) gastric acid secretion and its modification after pretreatment with an inhibitor of endogenous prostaglandins biosynthesis (indomethacin 5 mg/kg i.v.) has been studied in the anaesthetized rat. ST 30 micrograms/kg/h i.v. inhibits basal and stimulated gastric acid secretion. In the presence of indomethacin the inhibition elicited by ST on basal and pentagastrin induced gastric acid secretion was partially attenuated, whereas in the histamine group the inhibitory action was totally abolished. The antagonism elicited by indomethacin was not surmounted by increasing (X 3.3) the dose of ST. These findings suggest that endogenous prostaglandins may be involved in the mechanism by which ST exerts its antisecretory effect in this model.     

Central action of somatostatin analog, SMS 201-995, to stimulate gastric acid secretion in rats

The effects of intracisternal and intravenous injections of the somatostatin analog, SMS 201-995, on gastric acid secretion were investigated in rats with pylorus ligation or gastric cannula. Intracisternal injection of SMS 201-995 induced a dose-related (0.1-0.3 microgram) and long-lasting stimulation of gastric acid output with a peak response at 3 h postinjection in conscious, pylorus-ligated rats. Intracisternal SMS 201-995 increased histamine levels in the portal blood, whereas plasma gastrin levels were not modified. Atropine, cimetidine and adrenalectomy abolished the stimulatory effect of intracisternal SMS 201-995 (0.3 microgram). SMS 201-995 (0.03 microgram), microinjected unilaterally into the dorsal vagal complex, increased gastric acid output in urethane anesthetized rats. SMS 201-995, injected intravenously at 0.5 microgram, did not alter gastric secretion, whereas higher doses (5-20 micrograms) resulted in a dose-related inhibition of gastric acid secretion in conscious pylorus-ligated rats. These data indicate that SMS 201-995, a selective ligand for somatostatin-1 receptor subtype, induces a centrally mediated stimulatory effect on gastric acid secretion in rats. The central action involves the parasympathetic system, muscarinic and H2 receptors as well as adrenal-dependent pathways.     

Potent inhibition of gastric acid secretion by intravenous interleukin-1 beta and -1 alpha in rats.

The influence of human and rat recombinant interleukin-1 (hIL-1 beta and -1 alpha and rIL-1 beta) on acid secretion was investigated in conscious pylorus-ligated rats. Intravenous injection of either hIL-1 beta, hIL-1 alpha or rIL-1 beta dose dependently inhibited gastric acid output with an ED50 of 0.05 microgram, 0.5 microgram and 2.2 micrograms, respectively. The antisecretory action of IL-1 beta was associated with an increase in circulating levels of gastrin. hIL-1 beta-induced inhibition of acid secretion was dose dependently reversed by peripheral injection of the IL-1 receptor antagonist, IL-RA, with a dose ratio of 1:10(3) for complete reversal. The inhibitory effect of hIL-1 beta was blocked by indomethacin and was not modified by IV injections of the CRF receptor antagonist, alpha-helical CRF(9-41), or the monoclonal somatostatin antibody CURE.S6, or by systemic capsaicin pretreatment. These results show that systemic hIL-1 beta-induced inhibition of gastric acid secretion is mediated through IL-1 receptors and prostaglandin pathways, and does not involves CRF receptors, afferent fibers, or changes in circulating gastrin or somatostatin levels.     

Role of cyclooxygenase-2 in modulating gastric acid secretion in the normal and inflamed rat stomach

Nonsteroidal anti-inflammatory drugs elevate gastric acid secretion, possibly contributing to their ability to interfere with gastric ulcer healing. Inhibitors of cyclooxygenase-2 have been shown to delay experimental gastric ulcer healing. In the present study, we tested the hypothesis that cyclooxygenase-2-derived prostaglandins modulate gastric acid secretion. Studies were performed in normal rats and in rats with iodoacetamide-induced gastritis. Inflammation in the latter group was confirmed histologically and by a threefold increase in tissue levels of the granulocyte marker myeloperoxidase and was also associated with overexpression of cyclooxygenase-2 in the stomach. Basal acid secretion in both groups of rats was not affected by pretreatment with DuP-697, a selective inhibitor of cyclooxygenase-2. A nonselective cyclooxygenase inhibitor, indomethacin, had no effect on acid secretion in normal rats but caused a doubling of acid secretion in the rats with gastritis. DuP-697 had no effect on pentagastrin-induced secretion in either group of rats. Gastritis itself was associated with significantly increased pentagastrin-induced acid secretion, and this was further increased in rats pretreated with indomethacin. These results suggest that in a setting of gastric inflammation, prostaglandins derived from cyclooxygenase-1, not cyclooxygenase-2, exert inhibitory effects on acid secretion.     

Somatostatin,prostaglandin E2 and atropine inhibition of the gastric actions of bombesin in the dog

Bombesin, acetylcholine, prostaglandins and somatostatin are all thought to be involved in the regulation of gastrin release and gastric secretion. We have studied the effects of low doses of atropine, 16-16(Me)₂-prostaglandin E₂ (PGE₂) and somatostatin-14 on bombesin-stimulated gastrin release and gastric acid and pepsin secretion in conscious fistula dogs. For reference, synthetic gastrin G-17 was studied with and without somatostatin. Bombesin, in a dose-related manner, increased serum gastrin, which in turn stimulated gastric acid and pepsin secretion in a serum gastrin, concentration-dependent manner. Somatostatin inhibited gastrin release by bombesin as well as the secretory stimulation by G-17; the combination of sequential effects resulted in a marked inhibition of bombesin-stimulated gastric acid and pepsin secretion. PGE₂ also strongly inhibited gastrin release and acid and pepsin secretion. Atropine had no significant effect on gastrin release, but greatly inhibited gastric secretion. Thus somatostatin and PGE₂ inhibited at two sites, gastrin release and gastrin effects, while atropine affected only the latter.     

Characterization of the mechanisms involved in the gastric antisecretory effect of TLQP-21, a vgf-derived peptide,in rats

TLQP-21, a vgf-derived peptide modulates gastric emptying and prevents ethanol-induced gastric lesions in rats. However, it remains to be studied whether or not TLQP-21 affects gastric acid secretion. In this study, we evaluated the effects of central (0.8–8 nmol/rat) or peripheral (48–240 nmol/kg, intraperitoneally) TLQP-21 administration on gastric acid secretion in pylorus-ligated rats. The mechanisms involved in such activity were also examined. Central TLQP-21 injection significantly reduced gastric acid volume and dose-dependently inhibited total acid output (ED₅₀ = 2.71 nmol), while peripheral TLQP-21 administration had no effect. The TLQP-21 antisecretory activity was prevented by cysteamine (300 mg/kg, subcutaneously), a depletor of somatostatin, by indomethacin (0.25 mg/rat, intracerebroventricularly), a non-selective cyclooxygenase inhibitor, and by functional ablation of sensory nerves by capsaicin. We conclude that TLQP-21 could be considered a new member of the large group of regulatory peptides affecting gastric acid secretion. The central inhibitory effect of TLQP-21 on gastric acid secretion is mediated by endogenous somatostatin and prostaglandins and requires the integrity of sensory nerve fibres.     

Inhibition of gastric acid secretion by peptide YY is independent of gastric somatostatin release in the rat

The purpose of this study was to determine whether the inhibitory action of peptide YY (PYY) on gastric acid secretion is attributable to the release of gastric somatostatin in rats. Two groups of rats (six rats/group) were anesthetized with urethane and prepared with gastric fistulas and jugular catheters. Pentagastrin (18 micrograms/kg-h) was given intravenously for 150 min to stimulate gastric acid secretion. Intravenous PYY (130 micrograms/kg-h) inhibited pentagastrin-stimulated gastric acid secretion significantly (P less than 0.05). Administration of iv PYY resulted in a 41% reduction (P less than 0.05) in pentagastrin-stimulated gastric acid secretion. In another group of anesthetized rats, administration of PYY (10(-7), 10(-8) M) failed to stimulate a release of somatostatin from the isolated-perfused rat stomach. Our findings indicate that PYY can inhibit gastric acid secretion independently of release of gastric somatostatin in the rat.     

Diverse effects of phytohaemagglutinin on gastrointestinal secretions in rats.

Kidney bean lectin phytohaemagglutinin (PHA) is known for its binding capacity to the small intestinal surface inducing marked hyperplasia and hypertrophy and an increased pancreatic function. Recent observations indicate that PHA is able to attach to gastric mucosal and parietal cells. Therefore, we compared the effects of PHA on gastric acid secretion, and pancreatic amylase secretion in rats. To study gastric secretion in conscious animals, rats were surgically prepared with chronic stainless steel gastric cannula and with indwelling polyethylene jugular vein catheter. Acid secretion was determined by titration of the collected gastric juice to pH 7.0. Similar studies were performed to investigate the effect of PHA on pancreatic enzyme secretion in conscious rats supplied with pancreatic cannula. Pancreatic enzyme secretion was also studied in rats anesthetized with either halothane or urethane. In conscious rats PHA significantly inhibited basal acid secretion when compared to vehicle-treated controls. The effect was dose-dependent and reversible. On the other hand, given in the same doses as in the acid-secretory studies, PHA stimulated pancreatic amylase secretion in rats prepared with chronic pancreatic cannula. This effect was blocked by devazepide, a CCK-A receptor antagonist. In halothane-anesthetized rats PHA administration increased pancreatic amylase secretion, too. During urethane anesthesia, however, the stimulatory effect of PHA was not observed. These results provide evidence that intragastric PHA treatment induces opposite effects on gastric acid secretion and pancreatic enzyme secretion: it is a potent inhibitor of acid output, and a stimulator of pancreatic enzyme discharge. Our data also show that the stimulatory effect of PHA on pancreatic enzyme secretion can be blocked by urethane, an anaesthetic that is known to turn off the negative pancreatic feedback control of pancreatic function in rats.     

Effect of indomethacin and propranolol on the blood pressure and renin response to atriopeptin III in conscious rats

The effect of prostaglandin synthesis inhibition and of beta-adrenoceptor blockade on the blood pressure and renin response to the synthetic atrial natriuretic peptide atriopeptin III was assessed in unanesthetized normotensive rats. This peptide was infused i.v. for 30 min at a rate of 1 microgram/min in rats pretreated either with indomethacin (5 mg i.v.) or propranolol (1 mg i.v.). The blood pressure reducing effect of atriopeptin III was attenuated neither by indomethacin nor by propranolol. Atriopeptin III per se did not modify plasma renin activity. Both the administration of indomethacin and of propranolol had a suppressing effect on renin release during atriopeptin III infusion. These data suggest that the vasodilating properties of atrial natriuretic peptides do not depend in the conscious normotensive rats on the production of prostaglandins. They also provide evidence that during infusion of such peptides, both prostaglandins and beta-adrenergic mechanisms are still involved in the regulation of renin secretion.     

Roles of endogenous prostaglandins and nitric oxide in gastroduodenal ulcerogenic responses induced in rats by hypothermic stress.

We examined the roles of endogenous prostaglandins (PGs) and nitric oxide (NO) in the gastroduodenal ulcerogenic responses to hypothermic stress (28 approximately 30 degrees C) in anesthetized rats. Lowering body temperature provoked damage in the gastroduodenal mucosa, with an increase of gastric acid secretion and motility. These responses were completely abolished by bilateral vagotomy or atropine, while 16,16-dimethyl PGE2 decreased the mucosal ulcerogenic response with no effect on acid secretion. The non-selective COX inhibitors, indomethacin or aspirin, worsened these lesions with enhancement of gastric motility and no effect on acid secretion, while the selective COX-2 inhibitor NS-398 did not affect any of these responses. On the other hand, the non-selective NOS inhibitor L-NAME but not aminoguanidine (a relatively selective inhibitor of iNOS), significantly potentiated the acid secretory and mucosal ulcerogenic responses in the stomach but reduced the duodenal damage in response to hypothermia, the effects being antagonized by co-administration of L-arginine. Hypothermia itself decreased duodenal HCO3- secretion under both basal and mucosal acidification-stimulated conditions. Both indomethacin and aspirin further decreased the HCO3- response to the mucosal acidification, while L-NAME significantly increased the HCO3- secretion even under hypothermic conditions, similar to 16,16-dimethyl PGE2. These results suggest that 1) hypothermic stress caused an increase of acid secretion and motility as well as a decrease of duodenal HCO3-secretion, resulting in damage in both the stomach and duodenum, 2) the COX-1 but not COX-2 inhibition worsened these lesions by enhancing gastric motility and further decreasing duodenal HCO3- response, 3) the cNOS but not iNOS inhibition worsened gastric lesions by increasing acid secretion but decreased duodenal damage by increasing HCO3- secretion. Thus, it is assumed that the gastroduodenal ulcerogenic and functional responses to hypothermic stress are modified by cNOS/NO as well as COX-1/PGs.     

Structure-activity studies with somatostatin: the role of tryptophan in position 8

The gastric acid and pepsin inhibitory activities of 21 analogues of somatostatin, the majority modified at position 8, were determined in conscious cats in order to examine the importance of Trp8 for the activity of somatostatin. Pepsin secretion stimulated by pentagastrin was 5 times more sensitive, compared with the acid secretion, to inhibition by somatostatin. All the analogues showed similar differential sensitivity, indicating a similar specificity of somatostatin receptors involved in the inhibition of these two secretions. Halogenated-Trp8 analogues of somatostatin were only equipotent or slightly more active than somatostatin against gastric secretion in the cat, whilst these analogues are up to 30 times more potent against growth hormone release in the rat, indicating a different specificity of the two groups of receptors. Studies with the position 8 modified analogues suggest that the electron density of the aromatic nucleus of Trp8 may be relatively unimportant in determining the gastric inhibitory activity, whilst it can be concluded that the role of Trp8 in somatostatin depends to a large extent on the indole NH group. The precise role of Trp8 in somatostatin could be an involvement in the binding of somatostatin to its receptors, or involvement in forming the biologically active conformation of somatostatin.     

Pancreatic somatostatin-like immunoreactivity suppresses gastric acid secretion in rats.

Somatostatin-like immunoreactivity (SLI) was extracted from the canine pancreas and purified by ion exchange, affinity chromatography and gel filtration. The 1600 dalton fraction, which is physicochemically similar to synthetic somatostatin was infused into the peripheral circulation of anesthetized rats and its effect upon gastric acid secretion was compared with that of synthetic somatostatin. Both synthetic somatostatin and pancreatic SLI in a dose of 7–8 μg/kg/h suppressed pentagastrin-stimulated gastric acid secretion. It is concluded that the highly purified 1600 dalton fraction of canine pancreatic SLI, like synthetic somatostatin, can exert biological activity upon the stomach of rats.     

消炎痛对五肽胃泌素引起的大鼠胃酸分泌的影响

本工作进一步证实了消炎痛对胃泌素刺激胃酸分泌作用并无影响。基本应用 Ghosh 和Schild 的方法,用大鼠进行了急性实验,以恒速将接近体温的生理盐水自食道插管灌流胃,从幽门插管收集流出的灌流液作为胃液样品。结果表明,口服消炎痛(20—50mg/kg)对静脉注射五肽胃泌素(10μg/kg)所引起的胃酸分泌并无任何影响,这一结果与我们在狗身上的观察一致。结合前一工作,我们认为,内源性 PG 不影响胃泌素刺激胃酸分泌的作用,但影响胃泌素的合成和释放,因而内源性 PG 可能参与胃液分泌的调节。     

MDL-646, a new synthetic E1-prostaglandin with local protective effects on the gastric mucosa

The gastric protection, diarrheogenic and arterial hypotensive effects of MDL-646, a PGE1 derivative, have been studied in rats. The compound administered p.o. or i.v. was able to inhibit the macroscopic damage to gastric mucosa produced by noxious stimuli (ethanol and indomethacin). In the stomach perfusion test with the anesthetized rat, intravenously administered MDL-646 reduced histamine- or pentagastrin-stimulated gastric secretion. After intraduodenal administration (i.d.) doses at least 40-50 times greater were necessary for an antisecretory effect. In conscious rats with chronic gastric fistulas, intragastrically administered (i.g.) MDL-646 affected both acid concentration and volume of unstimulated gastric secretion. In experimental models for gastric lesions, MDL-646 was much more potent after oral (p.o.) (15-30 times) than after i.v. administration. (ED50 micrograms/kg: vs. alcohol lesions, 0.05 p.o. and 0.7 i.v.; vs. indomethacin ulcers, 7.0 p.o. and 195 i.v.). Our data would fit the hypothesis that it was a local effect on the gastric mucosa. The mechanism of this effect is not known. The supposed local activity coupled with the antisecretory effects and the good tolerability make it interesting to test MDL-646 as an anti-ulcer agent in man.     

Cyclic hexa- and pentapeptide somatostatin analogues with reduced gastric inhibitory activity

The gastric inhibitory activity of cyclic hexa- and pentapeptide analogues of somatostatin was investigated in conscious cats with gastric fistulae. Gastric acid and pepsin secretions were stimulated by pentagastrin. Cyclo(Phe-Phe-D-Trp-Lys-Thr-Phe) showed no inhibition of acid secretion at molar doses up to 50-times the ID50 for somatostatin. This peptide inhibited pepsin secretion at the highest dose (50 micrograms kg-1 hr-1), and its potency is approximately 0.005 compared with somatostatin (1.0). Cyclo(Pro-Phe-D-Trp-Lys-Thr-Phe) inhibited acid (approximately 50%) and pepsin (approximately 85%) secretions, but the inhibition was not dose-related being similar with doses of 10 to 50 micrograms kg-1 hr-1. The cyclic pentapeptide, cyclo(7-aminoheptanoyl-Phe-D-Trp-Lys-Thr), was inactive in the dose range studied, with a potency less than 0.01. Cyclo[7-aminoheptanoyl-Phe-D-Trp-Lys-Thr(Bzl)] has been described as a somatostatin antagonist with respect to inhibition of growth hormone, insulin and glucagon release in rats [2]. Up to 60-fold molar excesses of this peptide failed to antagonise the inhibitory activity of somatostatin in the stomach. The results demonstrate that residues outside the central 6-11 region of somatostatin are very important for its gastric activity. The lack of gastric antagonistic activity of the pentapeptide antagonist indicates that these residues are likely to be involved in receptor recognition/binding.     

Effect of somatostatin analogs on gastric acid secretion in dogs and rats

The effects of several superactive analogs of somatostatin on gastric acid response to various exogenous and endogenous stimulants were investigated in conscious dogs and rats with gastric fistulae (GF). The inhibition was compared to that induced by somatostatin-14 (S-S-14) at two dose levels. Several octapeptide analogs of somatostatin including D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Trp-NH2 (RC-160) and D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Thr-NH2 (RC-121), which were superactive in tests on suppression of GH levels, were 4-5 times more potent than S-S-14 in inhibiting desglugastrin-stimulated gastric acid secretion in GF dogs. The analog RC-160 also reduced the rise in serum gastrin levels and gastric acid secretion induced by sham feeding (SF) in dogs with gastric and esophageal fistulae (EF), but did not decrease food consumption. Gastric acid secretion induced by histamine (80 micrograms/kg/h) in dogs was not affected by 1-5 micrograms/kg/h of analog RC-121 or by 5 micrograms/kg/h of S-S-14. Analogs RC-160, RC-121, and RC-98-I (D-Trp-Cys-Phe-D-Trp-Lys-Thr-Cys-Thr-NH2) and others also powerfully inhibited desglugastrin-induced potent as S-S-14 in dogs but its activity was higher in rats. The results indicate that octapeptide analogs which are superactive in GH-inhibition tests are also more potent than S-S-14 in suppressing gastric acid secretion. These findings may be of clinical value.     

Comparison of the ulcerogenicity of indomethacin and the gastric secretion in verapamil-treated rats

The authors studied the effect of different doses of verapamil on the ulcerogenic activity of indomethacin (20 mg.kg-1) in rats. This was compared with the effect of verapamil on total gastric juice secretion, the amount of acid and the pH. It was found that, as distinct from total secretion and the amount of HCl, which verapamil reduced in correlation to the dose, ulcerogenicity after indomethacin was inhibited the most by a dose of 10 mg.kg-1 verapamil. Larger doses (20 and 30 mg.kg-1) did not increase the anti-ulcerogenic effect any further. This implies that verapamil-induced inhibition of the ulcerogenicity of indomethacin is not related directly to inhibition of total and acid gastric juice secretion.     

Somatostatin as a mediator of the effect of neurotensin on pentagastrin-stimulated acid secretion in rats

Neurotensin and somatostatin have both been shown to inhibit gastric acid secretion, but no interaction between these peptides has been demonstrated. To determine whether somatostatin might be a mediator of neurotensin's effect on pentagastrin-stimulated gastric acid secretion, we performed the following three experiments. First, we collected 0.2-ml samples of portal venous blood as frequently as every 5 min, and we confirmed a significant release of somatostatin-like immunoreactivity into portal venous blood during neurotensin-induced inhibition of acid secretion. This release of somatostatin-like immunoreactivity and inhibition of acid secretion were only seen in pentobarbital-anesthetized rats, but no sustained release of somatostatin-like immunoreactivity or inhibition of acid secretion occurred in urethane-anesthetized animals. In the second experiment, we analyzed portal plasma by high pressure liquid chromatography, and found that portal somatostatin-like immunoreactivity in blood collected during neurotensin infusion was composed of a single peak corresponding to somatostatin-14. In the third experiment, we found that infusion of antibody to somatostatin prevented neurotensin from inhibiting pentagastrin-stimulated acid secretion. Taken together, these data show that somatostatin, possibly from the stomach itself, is a necessary mediator of neurotensin's inhibitory effect in pentobarbital-anesthetized rats.     

MDL-646, a new synthetic E1-prostaglandin with local protective effects on the gastric mucosa

The gastric protection, diarrheogenic and arterial hypotensive effects of MDL-646, a PGE₁ derivative, have been studied in rats. The compound administered p.o. or i.v. was able to inhibit the maroscopic damage to gastric mucosa produced by noxious stimuli (ethanol and indomethacin). In the stomach perfusion test with the anesthetized rat, intravenously administered MDL-646 reduced histamine- or pentagastrin-stimulated gastric secretion. After intraduodenal administration (i.d.) doses at least 40–50 times greater were necessary for an antisecretory effect. In conscious rats with chronic gastric fistulas, intragastrically administered (i.g.) MDL-646 affected both acid concentration and volume of unstimulated gastric secretion. In experimental models for gastric lesions, DML-646 was much more potent after oral (p.o.) (15–30 times) than after i.v. administration. (ED₅₀ μg/kg: vs. alcohol lesions, 0.05 p.o. and 0.7 i.v.; vs. indomethacin ulcers, 7.0 p.o. and 195 i.v.). Our data would fit the hypothesis that it was a local effect on the gastric mucosa. The mechanism of this effect is not known. The supposed local activity coupled with the antisecretory effects and the good tolerability make it interesting to test MDL-646 as an anti-ulcer agent in man.