Inhibitory effect of somatostatin on cholecystokinin release is independent of luminal cholecystokinin-releasing factor content in conscious rats.

INTRODUCTION: Exclusion of bile-pancreatic juice from the intestine increases pancreatic secretion via cholecystokinin (CCK) release in conscious rats. Luminal CCK-releasing factor (LCRF), purified from rat intestinal secretions, is an intraluminal regulator of CCK secretion during bile-pancreatic juice diversion. AIMS: Because somatostatin is a potent inhibitor of CCK release and pancreatic secretion, the inhibitory effect of somatostatin on LCRF was examined. METHODOLOGY: Rats were prepared with bile and pancreatic cannulae and two duodenal cannulae and with an external jugular vein cannula. The experiments were conducted without anesthesia. After 1.5-hour basal collection of pancreatic juice with bile-pancreatic juice return, bile-pancreatic juice was diverted for 2 hours, during which time somatostatin (2, 10 nmol/kg/h) was infused intravenously. The rats were killed before and 1 and 2 hours after bile-pancreatic juice diversion. To examine the effect of luminal somatostatin, 50 or 200 nmol/kg/h of somatostatin was infused into the duodenum. The plasma CCK and luminal content of LCRF were measured by specific radioimmunoassays. RESULTS: Bile-pancreatic juice diversion significantly increased pancreatic secretion, plasma CCK, and LCRF levels. Intravenous infusion of somatostatin inhibited CCK release and pancreatic secretion, but not LCRF content. Luminal administration of somatostatin did not show any effect. CONCLUSION: Inhibitory effect of circulating somatostatin on CCK release and pancreatic secretion is independent of LCRF content.     

Effect of intraluminal bile on the feedback regulatory mechanism of pancreatic enzyme secretion in conscious rats

The effect of intraluminal bile on the well-known feedback regulatory mechanism of exocrine pancreatic secretion exerted by intraluminal trypsin was investigated in conscious rats with pancreatic, biliary and duodenal fistulae. The stimulated pancreatic enzyme secretion caused by diversion of bile-pancreatic juice from the intestine was apparently suppressed by intraduodenal reintroduction of pancreatic juice or bile-pancreatic juice, while it was slightly suppressed by intraduodenal reintroduction of bile. Although additional reintroduction of bile did not alter the already suppressed pancreatic enzyme secretion by the presence of pancreatic juice in the intestine, diversion of bile stimulated the suppressed pancreatic enzyme secretion by intraluminal bile-pancreatic juice. Infusion of sodium taurocholate into the duodenum with diversion of bile-pancreatic juice effectively inhibited pancreatic enzyme secretion. The inhibitory effect seemed to be dependent on the concentration of taurocholate infused into the duodenum. The results suggest that bile and bile acid have an important role in the feedback regulatory mechanism of pancreatic enzyme secretion, at least partly directly inhibiting the secretion.     

Inhibitory effects of the cholecystokinin antagonist loxiglumide on pancreatic exocrine secretion and pancreatic growth in conscious rats.

The effects of cholecystokinin (CCK) receptor antagonist Loxiglumide (CR 1505) on pancreatic exocrine secretion and growth stimulated by chronic bile-pancreatic juice diversion to the ileum were studied in conscious rats. Pancreatic secretion was measured each day at 0900 h for 7 d. Pancreatic flow and protein output were significantly increased 24 h after bile-pancreatic juice diversion. Protein output increased each successive day, reaching maximal values of 3.6-fold above basal by the 6th and 7th d of chronic bile-pancreatic juice diversion. Fluid output reached maximal values of approx. 3.5-fold above basal by the 3rd d of chronic bile-pancreatic juice diversion. Plasma CCK increased threefold above basal levels after 24 h of bile-pancreatic juice diversion and remained three- to fourfold above basal. Intragastric bolus infusion of CR 1505 (50 mg/kg) on the 7th d of chronic bile-pancreatic juice diversion inhibited pancreatic protein and fluid secretion by 80 and 75%, respectively, 60 min after administration and by 52 and 71%, respectively, 5 h later. Pancreatic wet wt after 7 d of chronic bile-pancreatic juice diversion was significantly increased by 56%, and this was completely suppressed by 50 mg/kg of CR 1505 given intragastrically every 12 h. These rests indicate that the rat with chronic bile-pancreatic juice diversion is a useful model to examine both potency and duration of the action of CCK receptor antagonists and show that CR 1505 inhibits pancreatic exocrine secretion and growth induced by endogenous CCK.     

A difference in stimulatory effects on pancreatic exocrine secretion between ursodeoxycholate and trypsin inhibitor in the rat

We previously reported that intraduodenally infused ursodeoxycholate produced hypersecretion of pancreas in bicarbonate and fluid secretion in the rabbit (Digestive Diseases and Sciences, 28942, 1983). Since trypsin inhibitor stimulates pancreatic secretion in the rat whose pancreatic exocrine secretion is regulated by a luminal feedback mechanism, in the present study wer examined the stimulatory effect of ursodeoxycholate in comparison to Trasylol in unanesthetized rats with both the presence and the absence of returning bile-pancreatic juice. Under the condition in which bile-pancreatic juice were continuously returned to the intestine, the intraduodenally infused ursodeoxycholate produced significant increases in juice flow and bicarbonate and protein outputs, while Trasylol significantly increased protein output only. After an 8-to 10-hr period of bile-pancreatic juice diversion, Trasylol no longer affected pancreatic secretion, whereas ursodeoxycholate still stimulated the bicarbonate output significantly. Trypsin activities in the proximal half of the small intestine were not decreased by the infusion of UDCA. The mechanism of stimulatory effect of ursodeoxycholate on pancreatic secretion is independent of luminal feedback regulation and appears to differ from that of trypsin inhibitor.A part of this study was supported by Grants in Aid from the Agency of Science and Technology of Japan.     

Effect of intraduodenai infusion of tocamphyl on pancreatic exocrine secretion and gastrointestinal hormone release in rats

Tocamphyl is a synthetic choleretic that is derived from a root extract ofCurcuma longa, L. We investigated the effect of tocamphyl on pancreatic exocrine secretion and bile flow, and on the release of some gastrointestinal hormones, by administering it intraduodenally using anesthetized rats. Tocamphyl stimulated pancreatic exocrine secretion in terms of volume and amylase output in a dose-related manner. Neither a CCK-receptor antagonist, CR1505 (loxiglumide), nor atropine sulfate infused intravenously suppressed the stimulatory effects of tocamphyl on pancreatic exocrine secretion and bile flow. The stimulatory effect on bile flow was stronger than that on pancreatic exocrine secretion. Plasma secretin levels were augmented with the increasing doses of tocamphyl, but CCK levels were not. These results indicate that intraduodenally administered tocamphyl stimulates pancreatic exocrine secretion and bile flow, and suggest that the stimulatory action is, at least in part, mediated by secretin, but not by either CCK or the cholinergic pathway.     

Stimulatory effect of monitor peptide and human pancreatic secretory trypsin inhibitor on pancreatic secretion and cholecystokinin release in conscious rats

The stimulatory effects of monitor peptide (MP) that was recently purified from rat bile-pancreatic juice on cholecystokinin (CCK) release and pancreatic exocrine secretions were examined in the conscious rat. As the sequence of MP has some homology with human pancreatic secretory trypsin inhibitor (hPSTI), the effects of these two materials were compared with each other. Rats were prepared with external bile and pancreatic fistulae. Pancreatic juice diversion significantly increased pancreatic secretions, but the intraduodenal injection of MP (0.9 micrograms per rat) could further increase pancreatic secretions. The MP injection produced significantly higher plasma CCK concentrations than the injection of isotonic saline solution did. Trasylol was infused simultaneously with pancreatic juice diversion to completely eliminate residual luminal protease activities. The MP (0.9 micrograms per rat) still showed the stimulatory effect, but hPSTI did not show any stimulatory effect on pancreatic secretion. Plasma CCK concentrations produced by MP were significantly higher than those produced by hPSTI. It was concluded that MP has a strong species specificity and that MP could stimulate CCK release and pancreatic exocrine secretions, not only via inhibiting luminal protease activities but also probably with a direct effect.     

Effects of C-terminal fragments of cholecystokinin on exocrine and endocrine secretion from isolated perfused rat pancreas

The ability of various C-terminal fragments of cholecystokinin (CCK) to increase pancreatic exocrine and endocrine secretion was examined in the isolated perfused rat pancreas. CCK octapeptide (CCK-8) induced biphasic dose-response curves for stimulation of pancreatic juice and amylase secretion. Maximal pancreatic juice and amylase output were obtained with 100 pM CCK-8. Concentrations of CCK-8 that caused pancreatic exocrine secretion also increased insulin release in the presence of 8.3 mM glucose. The tetrapeptide of CCK also simultaneously stimulated both exocrine and endocrine secretion, but was about 100,000 times less potent than CCK-8. By contrast both deca- and tetradecapeptide of CCK at a concentration of 100 pM stimulated secretion of pancreatic juice and amylase, and elicited insulin release comparably to CCK-8. The complete CCK-8 sequence was required as deamidated CCK-8 was without effects on exocrine and endocrine pancreatic secretion at a concentration of 100 pM. The present observations suggest that the structural requirements for CCK-induced insulin secretion are the same as those for CCK-induced exocrine secretions, and that the amino acids in position 5-8 and the amidated residue on the C-terminus are required for physiological activity of CCK on both the exocrine and endocrine pancreas. It is concluded that C-terminal fragments of CCK with eight or more amino acid residues are potent potentiators of insulin release as well as pancreatic exocrine stimulants.     

Regulation of intestinal concentration of cholecystokinin by bile and/or pancreatic juice

Pancreatic exocrine secretion in conscious rats is regulated by intraluminal bile and/or pancreatic juice. Exclusion of bile and/or pancreatic juice from the intestinal lumen caused cholecystokinin (CCK) release and stimulated pancreatic secretion. CCK in the plasma is mainly derived from endocrine cells in the proximal small intestinal mucosa. We examined the changes in CCK concentrations in the intestinal mucosa and compared them to those of plasma CCK concentrations and the changes of luminal trypsin activities after bile and/or pancreatic juice diversion in conscious rats. Rats with bile and pancreatic fistulae were used. Each treatment of bile, pancreatic juice, and bile-pancreatic juice diversion decreased luminal trypsin activity and increased plasma and intestinal CCK concentrations. The potency of the stimulatory effect on plasma and intestinal CCK concentrations was bilepancreatic juice diversion>pancreatic juice diversionbile diversion. Neither plasma CCK concentration nor intestinal CCK concentration was in inverse proportion to trypsin activity. The plasma CCK concentration did not parallel intestinal CCK concentration. Intravenous infusion of CCK-8 (300 pmol/kg/hr) did not increase CCK concentration in the intestinal mucosa. It was proposed that bile and/or pancreatic juice in the intestinal lumen regulated CCK concentrations not only in the plasma but also in the intestinal mucosa.     

Trypsin as a regulator of pancreatic secretion in the rat.

The effect of intraduodenally administered trypsin on pancreatic exocrine secretion was investigated in conscious rats surgically prepared with bile--pancreatic fistulae. Introduction of NaHCO3 into the duodenum did not influence pancreatic secretion. Reintroduction of bile--pancreatic juice into the duodenum, however, suppressed pancreatic protein output, mainly because of changes in protein concentration. Infusion of trypsin into the duodenum in the absence of intraluminal pancreatic juice significantly suppressed the secretory volume and pancreatic enzyme output; addition of trypsin inhibitor to the trypsin infusion resulted in an immediate increase of pancreatic secretion. Trypsin inhibitor per se, however, was without effect. Bile--pancreatic juice affected amylase, kipase, and trypsinogen output in a parallel fashion; after addition of trypsin inhibitor to the infusion the inhibitory effects on pancreatic enzyme output was reversed in a parallel manner. The results support the hypothesis that pancreatic exocrine secretion is regulated by a feedback mechanism exerted--at least partly--by intraluminal trypsin.     

Role of cholecystokinin in the negative feedback control of pancreatic enzyme secretion in conscious rats

Using a specific radioimmunoassay for cholecystokinin (CCK) we have studied the relation between circulating CCK concentrations and the feedback regulation of pancreatic enzyme secretion in conscious rats. Recirculation of diverted bile-pancreatic juice into the duodenum or intraduodenal perfusion of trypsin during biliary-pancreatic juice diversion produced basal output of amylase and trypsin and low portal CCK levels (less than 10 pmol/L). Biliary-pancreatic juice diversion or inactivation of trypsin caused increased CCK concentrations (peak values 50-100 pmol/L) and enzyme outputs. During biliary-pancreatic juice diversion, infusion of the CCK receptor antagonist proglumide suppressed the enzyme response without altering the increase in CCK. Measurement of portal and peripheral CCK during biliary-pancreatic juice diversion yielded values of 131 +/- 37 and 32 +/- 5 pmol/L, respectively. The peripheral CCK levels corresponded to concentrations achieved during exogenous CCK-8 infusion which resulted in similar enzyme outputs. Gel chromatography of portal plasma during diversion of biliary-pancreatic juice revealed one peak of CCK corresponding to CCK-8, and a larger peak eluted between CCK-33 and CCK-8, probably representing CCK-22. Similar CCK components were found in water extracts of jejunal mucosa, whereas the acetic acid extracts mainly contained CCK-33/39. We conclude that the negative feedback regulation of pancreatic enzyme secretion in rats is mediated by the release of CCK from the intestine and that the major molecular form of CCK in plasma is probably CCK-22.     

Melatonin and its precursor, L-tryptophan: influence on pancreatic amylase secretion in vivo and in vitro

Melatonin, considered as a main pineal product, may be also synthetized in the gastrointestinal tract from L-tryptophan. Melatonin has been recently shown to affect insulin release and its receptors have been characterized in the pancreas however, the effects of melatonin on the pancreatic enzyme secretion have not been examined. The aim of this study was to investigate the effects of melatonin or L-tryptophan on amylase secretion in vivo in anaesthetized rats with pancreato-biliary fistulas, and in vitro using isolated pancreatic acini. Melatonin (1, 5 or 25 mg/kg) or L-tryptophan (10, 50 or 250 mg/kg) given to the rats as a intraperitoneal (i.p.) bolus injection produced significant and dose-dependent increases in pancreatic amylase secretion under basal conditions or following stimulation of enzyme secretion by diversion of bile-pancreatic juice. This was accompanied by a dose-dependent rise in melatonin plasma level. Stimulation of pancreatic enzyme secretion caused by melatonin or L-tryptophan was completely abolished by vagotomy, deactivation of sensory nerves with capsaicin or pretreatment with CCK1 receptor antagonists (tarazepide or L-364,718). Pretreatment with luzindole, an antagonist of melatonin MT(2) receptor failed to affect melatonin- or L-tryptophan-induced amylase secretion. Administration of melatonin (1, 5 or 25 mg/kg i.p.) or L-tryptophan (10, 50 or 250 mg/kg i.p.) to the rats resulted in the dose-dependent increase of cholecystokinin (CCK) plasma immunoreactivity. Enzyme secretion from isolated pancreatic acini was not significantly affected by melatonin or L-tryptophan used at doses of 10(-8) -10(-5) M. We conclude that exogenous melatonin, as well as that produced endogenously from L-tryptophan, stimulates pancreatic enzyme secretion in vivo while increasing CCK release. Stimulatory effect of melatonin or L-tryptophan on the exocrine pancreas involves vagal sensory nerves and the CCK release by these substances.     

Effects of L-364,718 on pancreatic exocrine and endocrine secretion in the rat.

We examined the inhibitory effect of L-364,718, a nonpeptide cholecystokinin (CCK) antagonist, on CCK stimulation of pancreatic exocrine and endocrine secretion in both the isolated pancreatic acini and the isolated perfused pancreata of rats. In the isolated acini, L-364,718 inhibited CCK octapeptide (CCK-8)-stimulated amylase release and binding of 125I-CCK-8 in a dose-dependent manner without appreciable effects on the basal amylase secretion. L-364,718 also inhibited amylase release in response to caerulein and gastrin I, but had no effect on amylase release stimulated by other secretagogues or by agents bypassing receptors. Similarly, binding of N-methylscopolamine to pancreatic acini was not inhibited by L-364,718. In the isolated perfused pancreata, L-364,718 inhibited CCK-8-stimulated pancreatic exocrine secretion and insulin release. The inhibitory effects of L-364,718 were more potent for insulin release than for exocrine secretion and persisted even after the removal of L-364,718 infusion. These results clearly demonstrate that L-364,718 is a specific, potent, and prolonged antagonist of CCK's stimulatory actions on pancreatic acinar and B cells.     

Effect of L-364,718 on GRP-stimulated pancreatic and gastric secretions and GI peptides in conscious dogs

The effect of L-364,718, a cholecystokinin (CCK) receptor antagonist, on exocrine pancreatic secretion, gastric secretion, and plasma levels of gastrointestinal (GI) peptides stimulated by gastrin-releasing peptide (GRP) was examined in five conscious dogs. Intravenous infusion of graded doses of synthetic porcine GRP (18, 36, and 178 pmol/kg/h) caused significant and dose-dependent increases in pancreatic and gastric juice secretion and in plasma levels of pancreatic polypeptide (PP), CCK, and gastrin. Intravenous injection of L-364,718 (20 nmol/kg) significantly inhibited GRP-stimulated pancreatic outputs of juice volume, protein, and amylase and plasma PP release. L-364,718, however, did not affect gastric juice volume and plasma levels of CCK and gastrin. The results suggest that endogenously released CCK is, at least in part, responsible for GRP-stimulated pancreatic protein and enzyme secretions and PP release in dogs. The results further suggest that GRP-stimulated pancreatic secretion might be, in part, a direct response of GRP to exocrine pancreas.     

Effects of cisapride on the pancreatic exocrine secretion in rats

Exocrine pancreatic secretion to intravenous injections of a new stimulant of gastrointestinal motility, R51,619 (cisapride) was studied in conscious rats, and in the isolated pancreatic acini in vitro. The injection of cisapride (2 mg/kg) significantly increased fluid, bicarbonate and protein output in vivo. Atropine completely abolished the pancreatic responses to cisapride, and CR 1409, a new glutaramic acid derivative and a competitive cholecystokinin (CCK) inhibitor, tended to decrease the cisapride-induced pancreatic exocrine secretion. However, amylase release and Ca2+ efflux from the isolated pancreatic acini were not stimulated. These results suggest that cisapride indirectly affects the pancreatic exocrine secretion primarily by releasing acethycholine from the intrapancreatic nerve endings and in part by releasing CCK from the duodenum, but has no direct action on the pancreas.     

Regulatory effects on the pancreas of intraduodenal pancreatic juice and trypsin in the Syrian golden hamster

The effect of intraduodenal trypsin activity on pancreatic exocrine secretion was studied in conscious Syrian golden hamsters provided with bile-pancreatic fistulae. The secretion (secretory volume, amylase and protein output) was stable during a collection period of 14 h without any duodenal infusions. Infusion into the duodenum of bicarbonate or bile did not affect the secretion. When, however, bile-pancreatic juice or trypsin was administered intraduodenally, a marked depression of amylase and protein output was found. After addition of trypsin inhibitor--in a dose sufficient to eliminate all trypsin activity--to either of the two infusates the secretion was restored to the initial values. In a long-term experiment (10 days) repeated subcutaneous injections of cholecystokinin caused a significant increase of pancreatic protein and amylase content in the hamster. Oral trypsin inhibitor administration for 10 days had similar, although not so pronounced effects. Subcutaneous secretin administration was without effect in this respect. The results show that pancreatic enzyme secretion in the Syrian golden hamster is controlled by a negative feedback regulation exerted by intraluminal trypsin. The findings also suggest that both cholecystokinin and orally administered trypsin inhibitor exert trophic effects on the pancreas.     

Effect of ursodeoxycholate on pancreatic exocrine secretion in vitro and in vivo study]

In the present study, we examined the effect of ursodeoxycholate (UDCA) and it's taurine conjugate (TUDC) on rat pancreatic exocrine secretion using dispersed pancreatic acini (in vitro) and conscious rats (in vivo). In in vitro study 300 microM UDCA significantly increased 10(-12)-10(-9) M CCK-8 stimulated amylase release and change of intracellular Ca2+ concentration, but TUDC did not have these effects. In in vivo study intraduodenal infusion of UDCA but not TUDC stimulated pancreatic exocrine secretion. Intravenous infusion of secretin antibody decreased bicarbonate output, however, this increase was not prevented by CCK antagonist. Thus, it was suggested that UDCA has direct action on pancreatic acini and UDCA infused intraduodenally stimulates pancreatic secretion, possibly via the release of a secretin-like substance. The taurine conjugate has weak bioactivity on pancreatic exocrine secretion in both in vitro and in vivo.     

Inhibition of pancreatic exocrine secretion in the rat by calcitonin gene-related peptide: involvement of circulating somatostatin

Calcitonin gene-related peptide (CGRP), a 37-amino acid peptide, has been shown to be a potent inhibitor of pancreatic exocrine secretion when administered exogenously The present study was performed to determine if this inhibitory effect is due to the direct actions of exogenous CGRP on the exocrine pancreas or to the effects of another inhibitor released by CGRP. To this end, we first confirmed the inhibitory effects of the peptide on exocrine function by infusing the peptide into conscious rats previously prepared with bile-pancreatic fistulas and measuring cholecystokinin-stimulated amylase and protein outputs. CGRP produced a dose-dependent inhibition of both protein and amylase outputs in vivo. In marked contrast, CGRP in vitro had no direct inhibitory effect on amylase output from either the isolated buffer-perfused pancreas or dispersed acinar cells. Thus, the inhibitory effects of exogenous CGRP on pancreatic exocrine function appear to be indirect. In an attempt to determine the mediator of the inhibitory effects of CGRP, we assessed the ability of similar doses of CGRP to stimulate the release of a potential endogenous inhibitor of pancreatic exocrine function, circulating somatostatin. In conscious rats, iv CGRP dose-dependently increased circulating plasma somatostatin-like immunoreactivity from 35 +/- 5 to 86 +/- 7 fmol/ml. To determine if these increments in circulating somatostatin were sufficient to impair exocrine function, the isolated pancreas was exposed in vitro to a similar concentration of somatostatin. Somatostatin perfusion resulted in a significant inhibition of pancreatic amylase output (73%). Overall, these results support the hypothesis that 1) the inhibitory effect of exogenous CGRP on pancreatic exocrine function is indirect; 2) exogenous CGRP stimulates the release of endogenous somatostatin into the systemic circulation; and 3) the concentration of circulating somatostatin is sufficient to mediate the effect of exogenous CGRP on the exocrine pancreas.     

Effect of intraduodenal oligopeptide on rat pancreatic exocrine secretion and release of secretin and CCK]

We investigated whether intraduodenal (id) oligopeptide with three or four amino acids residues (pH 7.0) stimulates pancreatic exocrine secretion and release of endogenous plasma secretin and CCK in anesthetized rats. Id administration of oligopeptides in three doses (25, 100, 400 mg/hr) at a speed of 4 ml/hr resulted in dose-related increases in pancreatic secretion of pancreatic juice volume, bicarbonate, and amylase outputs (r = 0.598, 0.673, and 0.426, P less than 0.05 -- 0.001), and plasma concentrations of secretin and CCK (r = 0.743, 0.425, P less than 0.001 and 0.05). Intravenous administration of CCK-antagonist, CR1505 (5 mg/kg.hr) markedly inhibited oligopeptide-stimulated amylase output, but did not affect pancreatic juice volume and bicarbonate output. These results suggest that id oligopeptide increases pancreatic exocrine secretion and releases endogenous secretin and CCK.     

Pancreatic enzyme secretion mediated by novel peptide: monitor peptide hypothesis

A new model is proposed for pancreatic enzyme secretion in response to food protein intake in rats. We have found a novel peptide in rat bile-pancreatic juice, which exhibits a trypsin-sensitive, cholecystokinin (CCK)-releasing activity. The amino acid sequence of the peptide purified from rat bile-pancreatic juice is very similar to that of a conservative region in pancreatic secretory trypsin inhibitor (PSTI). The peptide loses its CCK-releasing activity during trypsin digestion, but food protein intake prevents this trypsin digestion. Results of a reconstitution experiment indicate that pancreatic enzyme secretion in response to food protein intake only occurs as a result of interaction between trypsin and our purified peptide. Also, a peptide-specific antibody abolished the response. These findings lead us to hypothesize that this peptide acts as an intraduodenal mediator for CCK release in response to food protein intake.     

Effect of CCK antagonists CR 1409 and CR 1505 on rat pancreatic exocrine secretion in vivo

The action of cholecystokinin (CCK) antagonists CR 1409 and CR 1505 on pancreatic exocrine secretion stimulated by exogenous and endogenous CCK was studied in vivo in anesthetized rats, and compared with proglumide. Intravenous administration of CR 1409 and CR 1505 in graded doses between 0.04 and 25 mg/kg/h resulted in a dose-dependent inhibition in pancreatic juice volume and amylase output stimulated by intravenous infusion of CCK-8 in a dose of 0.06 microgram/kg/h. CR 1409 is 1,000 times and CR 1505 is 267 times more potent than proglumide, based on the ED50 (effective dose for half-maximal inhibition) for CCK-8-stimulated amylase secretion. Intraduodenal administration of casein in a dose of 400 mg/h caused significant increases in plasma CCK concentration and pancreatic secretion of juice volume and outputs of amylase and trypsin. Both CR 1409 and CR 1505 in a dose of 5 mg/kg/h suppressed the increases in pancreatic juice volume and both amylase and trypsin outputs induced by casein given intraduodenally. These results indicate that CCK antagonists including CR 1409, CR 1505, and proglumide inhibit pancreatic exocrine secretion stimulated by not only exogenous, but also endogenous CCK in rats.