Vagal inhibition of gastric acid secretion: evidence for cholecystokinin as the inhibitory transmitter in the mouse stomach

In the mouse isolated stomach preparation, electrical stimulation of vagal preganglionic fibres activated cholinergic excitatory pathways and noncholinergic inhibitory pathways to the gastric glands. Both were blocked by hexamethonium suggesting that there is at least one nicotinic synapse in each. The inhibitory vagal response was blocked by dibutyryl cyclic GMP, an established cholecystokinin antagonist which abolished cholecystokinin-mediated inhibition of acid secretion. It is suggested that there are direct inhibitory vagal pathways to the gastric glands and that cholecystokinin may be the inhibitory transmitter.     

Structure-activity studies with cholecystokinin on gastric secretion in the cat

The influence of the position of the sulphate group in CCK on its gastric acid and pepsin stimulating activities was investigated in conscious cats with gastric fistulae. In Boc-CCK7, substitution of tyrosine-SO₃H by ε-hydroxynorleucine-SO₃H, an aliphatic amino acid approximating the length of tyrosine, enhanced acid secretory potency, whilst similar substitution by serine-SO₃H reduced potency, possibly due to the serine residue holding the sulphate group closer to the peptide backbone. Desulphation of Ser-CCK6 reduced acid secretory potency indicating that the known loss of potency upon desulphation of CCK-like peptides is not wholly dependent upon the presence of tyrosine residue in position 7. Sulphated CCK-like peptides are partial agonists of pepsin secretion, and desulphation confers full agonist activity. Analogues of CCK with serine or ε-hydroxynorleucine substituting for tyrosine, whether sulphated or not, showed full agonist activity in stimulating pepsin secretion. These data suggest the presence of the aromatic tyrosine residue, as well as sulphation, to be a necessary prerequisite for pepsin partial agonist activity in CCK-like peptides.     

Inhibitors of ATP-sensitive potassium channels stimulate intestinal cholecystokinin secretion

Recently, a role for adenosine 5′-triphosphate(ATP)-sensitive potassium channels in the regulation of cholecystokinin (CCK) secretion has been described in STC-1 cells, an intestinal CCK-secreting cell line. To examine whether a similiar mechanism might participate in the regulation of hormone secretion from native CCK cells, the effects of two established inhibitors of ATP-sensitive potassium channels (e.g. glucose, disopyramide) were examined on CCK release from dispersed murine intestinal cells. Both glucose and disopyramide were found to stimulate CCK secretion. Furthermore, CCK release induced by glucose was inhibited by the calcium channel blocker diltiazem. It is concluded that, ATP-sensitive potassium channels may play a role in the regulation of intestinal CCK secretion.     

Role of gastrin in duodenal mechanisms of inhibition of gastric secretion in the dog and man

Gastrin serum levels after acidification of the second portion of the duodenum were studied, in dogs and humans, while simultaneously measuring secretin levels and gastric acid secretion. After duodenal acidification in dogs, a 50% inhibition of gastric acid secretion with parallel 100% increases in the serum secretin levels was noted whereas gastrin serum levels did not change (after duodenal acidification). In humans, a 25% inhibition of gastric acid secretion with parallel 50% (not significative) increases in the secretin serum levels was noted. In the entire group gastrin levels did not change, but in 35.2% of the subjects a little increment without statistical significance was noted. It is concluded that the inhibition mechanism of gastric acid secretion after duodenal acidification is more important in dog than in man, and that, probably, gastrin does not play an important role in this mechanism.     

Lipids, proteins and carbohydrates stimulate the secretion of intestinal cholecystokinin in the pig

Food intake enhances the release of intestinal cholecystokinin (CCK) in the pig but the contribution of individual nutrients to the CCK response has not yet been established in this species. Six hogs (mean weight 50 kg) were fitted with a duodenal fistula for instillation of nutrients and with portal (PV) and carotid (CA) catheters for blood sampling. After a 24-h fast, the animals received 1,000 ml of isotonic solution containing 440 kcal of carbohydrate (starch hydrolysate), or of protein (casein hydrolysate) or fat (Intralipid) or a control saline solution by 60-min intraduodenal perfusion after a 60-min control period during which the animals received saline. Portal and peripheral blood samples were collected at 15-min intervals for CCK radioimmunoassay. Intraduodenal perfusion of fat provoked a sharp increase in CCK-Like immunoreactivity (CCK-LI) in PV (peak 76.6 +/- 12.2 pM from basal 10.8 +/- 1.2 pM) and in peripheral blood (peak 46.7 +/- 8.4 pM from basal 9.1 +/- 1.0 pM). The protein hydrolysate induced a transient increase in plasma CCK-LI during the first 30 min of intestinal perfusion (PV: peak 40.1 +/- 5.0 pM from basal 11.9 +/- 1.4 pM; CA: 31.8 +/- 4.0 pM from basal 8.5 +/- 0.8 pM). The transient effect of proteins on CCK release might reflect the consequence of somatostatin release from intestinal stores. Starch hydrolysate promptly raised plasma CCK-LI level to a plateau value (PV: 52.5 +/- 13.1 pM from basal 11.9 +/- 1.4 pM; CA: 35.4 +/- 8.0 from basal 8.5 +/- 0.8 pM).(ABSTRACT TRUNCATED AT 250 WORDS)     

Role of cholecystokinin in the intestinal phase of pancreatic circulation in dogs

The regulatory mechanisms of postprandial pancreatic hyperemia are not well characterized. The aim of this study is to clarify the role of cholecystokinin (CCK) in the intestinal phase of pancreatic circulation. Pancreatic, gastric, and intestinal blood flows were measured by ultrasound transit-time blood flowmeters in five conscious dogs. Pancreatic and gastric secretion and blood pressure were also monitored. Synthetic CCK octapeptide (CCK-8) or gastrin heptadecapeptide (gastrin-17) was infused intravenously, and milk was infused into the duodenum with or without loxiglumide, a specific CCK-A receptor antagonist. CCK-8 induced dose-related increases of pancreatic, but not gastric or intestinal, blood flow and protein secretion without affecting systemic blood pressure. Gastrin-17 did not affect pancreatic blood flow. An intraduodenal infusion of milk increased pancreatic and intestinal blood flows and pancreatic protein secretion. Loxiglumide completely inhibited pancreatic blood flow and protein responses to CCK-8 and milk but not the intestinal blood flow response. CCK is a potent and specific pancreatic vasodilator, with its effect mediated by CCK-A receptors. CCK plays an important role in the regulation of the intestinal phase of the pancreatic circulation in dogs.     

Feedback control of pancreatic secretion in rats. Role of gastric acid secretion.

Pancreatic secretion in rats is regulated by feedback inhibition of cholecystokinin (CCK) release by proteases in the gut lumen, but little is known about the role of gastric acid in this regulation. This study, carried out on conscious rats with large gastric fistulas (GF) and pancreatic fistulas, shows that diversion of pancreatic juice results in the progressive stimulation of pancreatic secretion only in rats with the GF closed. When the GF was kept open, the diversion resulted in only small increment in pancreatic secretion and this was accompanied by progressive increase in gastric acid outputs. Similar amounts of HCl instilled into the duodenum in rats with the GF open fully reproduced the increase in pancreatic secretion observed after the diversion of pancreatic juice. Pretreatment with omeprazole (15 mumol/kg) to suppress gastric acid secretion or with L-364,718 (5 mumol/kg) to antagonize CCK receptors in the diverted state, resulted in the decline in pancreatic secretion similar to that observed after opening the GF. CCK given s.c. (20-320 pmol/kg) failed to cause any significant rise in the post-diversion pancreatic secretion in rats with the GF closed, but stimulated this secretion dose-dependently when the GF was open. Camostate (6-200 mg/kg) in rats with pancreatic juice returned to the duodenum caused dose-dependent increase in pancreatic secretion, but after opening the GF or after omeprazole this increase was reduced by about 75%. This study provides evidence that gastric acid plays a crucial role in the pancreatic response to diversion of pancreatic juice or inhibition of luminal proteases, and that factors that eliminate gastric acid secretion reduce this response.     

Role of cholecystokinin in mediating GRP-stimulated gastric, biliary and pancreatic functions in man.

To explore the mechanisms of gastrin-releasing peptide (GRP)-induced gut functions in man, we investigated the effect on gallbladder contraction, exocrine pancreatic secretion and gastric acid secretion of a recently developed CCK receptor antagonist, loxiglumide, on GRP-stimulated effects in six healthy human subjects. Intravenous infusion of graded doses of synthetic human GRP (1-27 pmol/kg per h) caused significant and dose-dependent increases in pancreatic enzyme and gastric acid secretions and in gallbladder contraction. Intravenous administration of loxiglumide (10 mg/kg per h) abolished GRP-stimulated gallbladder contraction, augmented gastric acid secretion, but did not affect exocrine pancreatic secretion. The results suggest that endogenously released CCK is (1) responsible for GRP-stimulated gallbladder contraction, and (2) involved in regulating gastric acid secretion. The results further suggest that GRP-stimulated pancreatic secretion is not mediated by CCK, but has a direct response of GRP on the exocrine pancreas.     

Cholecystokinin-stimulated pepsinogen secretion and cholecystokinin receptors on gastric chief cells in guinea pigs

We investigated cholecystokinin (CCK) receptors on isolated gastric chief cells from guinea pig. CCK stimulated pepsinogen secretion from chief cells at the same efficacy as that induced by carbamylcholine. Binding of 125I-labeled CCK-33 (125I-CCK) to chief cells was temperature-dependent, and was saturable and reversible at 37 degrees C. Hofstee plots of the ability of CCK-8 to inhibit binding of 125I-CCK showed a linear regression line, suggesting that CCK receptors possessed one binding site. The dissociation constant of the binding site was calculated to be 3.8 x 10(-10) M. The dose-response curve of CCK for pepsinogen secretion was superimposed on that for the binding to its receptors. These results indicated that gastric chief cells from the guinea pig possess CCK receptors that relate closely to the action of CCK involved in pepsinogen secretion.     

Complex role of protein kinase C in mediating the supramaximal inhibition of pancreatic secretion observed with cholecystokinin.

Protein kinase C appears to play an important, yet complex role in the supramaximal inhibition of pancreatic acinar cell secretion observed in response to cholecystokinin (CCK). The addition of protein kinase C activation to the concentration-response curve of a partial agonist acting at the CCK receptor (a phenethyl ester analogue of CCK), transforms a curve without supramaximal inhibition to a full agonist curve typical of CCK. This effect can be elicited by low concentrations of phorbol ester (50pM to 1nM 12-0-tetradecanoyl-phorbol-13-acetate) or by hormonal agonists (0.1 microM carbamylcholine, 10pM bombesin, 1pM CCK-8) which activate protein kinase C, but not by agonists acting via alternate second messengers (VIP). Of interest, this effect is dependent on preincubation of the acinar cells with the protein kinase C activator at 37 degrees C, with the effect rapidly reversed by transient exposure of the cells to lower temperature. This is consistent with mediation by a phosphorylation event. However, the requirement for an extended (greater than 15 min) preincubation period when using minimal kinase activation suggests that this phenomenon is more complicated than a simple bimolecular phosphorylation event and likely includes a series of events such as translocation of substrates and/or enzymes involved.     

Role of adrenergic and cholinergic mediators in gastric mucus phospholipid secretion.

The role of adrenergic and cholinergic mediators in phospholipid secretion by gastric mucosal cells maintained in the presence of [3H]choline was investigated. The secretion of [3H]choline phospholipids over 30 min period averaged 1.98% of the total cellular labeled phospholipids in the absence of any mediator, and was enhanced by beta-adrenergic agonist, isoproterenol, to a greater extent than the cholinergic agonist, pilocarpine. A 2-fold increase in phospholipid secretion was achieved with isoproterenol, while pilocarpine evoked 1.3-fold increase. The stimulatory effect of isoproterenol was inhibited by alprenolol and that of pilocarpine by atropine. The phospholipids secreted in response to isoproterenol exhibited a 30% decrease in lysophosphatidylcholine, while 2.1-fold enrichment in this phospholipid occurred with pilocarpine. The results, for the first time, demonstrate the involvement of neural mediators in the regulation of phospholipid secretion in gastric mucus.     

Role of cholecystokinin in the control of gastric somatostatin in the rat: in vivo and in vitro studies.

Cholecystokinin (CCK) has been shown to be a powerful stimulus for somatostatin release from isolated canine fundic D-cells in short-term culture. The influence of the CCK analogue caerulein on the secretory activity of the D-cell in the intact stomach in vitro and the effect of elevated plasma levels of endogenous CCK on gastric somatostatin stores in vivo were investigated in the rat. Basal somatostatin secretion from the isolated, vascularly perfused rat stomach preparation was not affected by various doses of caerulein. Slight stimulation of somatostatin-like immunoreactivity (SLI) release by epinephrine was significantly inhibited by caerulein, whereas caerulein did not alter half-maximal stimulation of SLI secretion by isoproterenol. Rats with chronically elevated plasma CCK levels induced by experimental exocrine pancreatic insufficiency did not show any change in tissue concentrations of SLI or in D-cell number, both in the antrum and corpus. These data suggest that CCK--in contrast to dogs--is not an important modulator of gastric somatostatin in the rat.     

Sauvagine: inhibition of gastric acid secretion in rats

Sauvagine (SV) powerfully inhibits gastric acid secretion by both the central and peripheral mechanisms. We examined whether adrenergic mechanisms or prostaglandin pathways might mediate the inhibitory action of SV on acid production in pylorus-ligated rats. Adrenalectomy altered the extent of the SV suppressive effect, suggesting that adrenal-derived substances participate in the action of the peptide. Blockade of adrenergic receptors by propranolol did not modify the antisecretory effect of SV, while the alpha-adrenergic antagonist, phentolamine, and the dopaminergic antagonist, haloperidol, potentiated the gastric response to the peptide. The action of SV appeared to be independent of prostaglandin pathways. We conclude that the antiacid effect of SV may be mediated by the adrenal but probably not by adrenergic or prostaglandin mechanisms.