L-364,718, a new CCK antagonist,inhibits postprandial pancreatic secretion and PP release in dogs

The effects of L-364,718, a new CCK receptor antagonist, on food-stimulated exocrine pancreatic secretion and plasma levels of PP, insulin, CCK, and gastrin were examined in four conscious dogs with pancreatic fistulas. Intravenous injections of L-364,718 (20 nmol/kg) significantly inhibited pancreatic protein and enzyme responses by food (33% inhibition) but not juice volume output. Both rapid and secondary prolonged postprandial rises of plasma PP were also significantly suppressed by L-364,718 (50% inhibition); however, plasma levels of insulin were not altered. Postprandial levels of gastrin were not affected by L-364,718 administration, whereas 3-hr integrated CCK response was significantly enhanced by L-364,718. This study indicates that L-364,718 inhibits pancreatic protein and enzyme secretion and the release of pancreatic polypeptide stimulated by food in conscious dogs. This inhibition might be due to the selective blockage of receptor binding of circulating CCK molecules. The results suggest that L-364,718 may be useful for the physiological and pathophysiological studies associated with CCK.     

The role of gastrointestinal peptides on pancreatic secretion in response to different stimulants in conscious rats

Summary Effects of intragastric food, intraduodenal amino acids, and intravenously administered bombesin and gastrin-releasing peptide (GRP) were examined in conscious rats with pancreatic fistula in terms of responses of exocrine pancreatic secretion, plasma levels gastrin, and cholecystokinin (CCK). Pancreatic juice and blood samples were collected at regular intervals before and after the stimuli. Intragastric food increased pancreatic secretion and plasma levels of gastrin and CCK. Intraduodenal infusion of amino acids had no effect on pancreatic secretion and plasma levels of gastrin and CCK. Intravenous infusion of bombesin at 1 μg/kg/h induced significant increases in pancreatic volume and protein outputs, but had no effect on plasma levels of gastrin and CCK. Bombesin infusion at 10 μg/kg/h resulted in significant increases in pancreatic volume and protein outputs as well as plasma gastrin levels, but had no effect on plasma CCK levels. Intravenous infusion of GRP induced increases in pancreatic volume and protein outputs and plasma gastrin levels, but had no effect on CCK levels. Antrectomy resulted in significant decreases in basal levels of plasma gastrin. GRP-stimulated pancreatic volume and protein outputs were not significantly changed by antrectomy. In rats that underwent antrectomy, GRP infusion significantly increased pancreatic volume and protein outputs, but had no effect on plasma levels of gastrin and CCK. Food-stimulated pancreatic secretion and plasma levels of gastrointestinal peptides of rats were similar to other species, but amino acids, bombesin, or GRP may not be the stimulants for CCK release in rats. The stimuli that release CCK from duodenal mucosa probably varies among species.     

Effects of cholecystokinin and gastrin antagonists on pancreatic exocrine secretion stimulated by gastrin-releasing peptide.

The effects of a specific cholecystokinin (CCK) receptor antagonist (L364,718) and a gastrin receptor antagonist (L365,260) on gastrin-releasing peptide-10 (GRP-10)-stimulated pancreatic secretion were investigated in the anesthetized rat. GRP-10 stimulated pancreatic exocrine secretion in a dose-dependent manner. A dose of 1.0 nmol/kg/h elicited a significant increase in pancreatic protein output. L364,718 (2.0 mg/kg/h), at a dose that completely inhibited the stimulatory effect of exogenous CCK-8 (3.0 nmol/kg/h) on pancreatic secretion, did not suppress the excitatory effect of GRP-10. L365,260 (5.0 mg/kg/h), at a dose that completely inhibited the stimulatory effect of exogenous gastrin (20 micrograms/kg/h) on gastric acid secretion, did not suppress the excitatory effect of GRP-10 either. We concluded that CCK or gastrin do not mediate the excitatory mechanism of bombesin/GRP on pancreatic secretion. Since CCK and gastrin are the most probable candidates for excitatory mediator of bombesin/GRP, these results support the hypothesis that bombesin/GRP directly stimulates the exocrine pancreas in the rat.     

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.     

Role of cholecystokinin, gastrin and gastrin-releasing peptide in the regulation of pancreatic secretion in cats.

This study performed on 6 conscious cats with chronic pancreatic fistulas was designed to determine the role of cholecystokinin (CCK), gastrin and gastrin-releasing peptide (GRP) in stimulation of pancreatic secretion in this species. Pancreatic response to GRP infused intravenously in graded doses appears to be mediated predominantly by CCK because a CCK receptor antagonist, L-364,718, abolished this response. Also, gastrin appears to mediate in part the secretory response to GRP because blockade of gastrin receptors by L-365,260, given at the dose that completely abolished the pancreatic response to exogenous gastrin, caused a significant reduction in the bombesin-induced pancreatic secretion. CCK and partly gastrin appear to mediate the postprandial pancreatic secretion in cats as the administration of L-364,718 and L-365,260 inhibited this secretion by over 90 and 30%, respectively. In contrast, GRP does not seem to contribute to food-induced pancreatic secretory stimulation, because the blockade of GRP receptors using novel bombesin/GRP antagonist (RC-3100) failed to affect this secretion. We conclude that CCK and partly gastrin, but not GRP, play an essential role in the postprandial pancreatic secretion.     

Evidence against cholecystokinin mediation of basal and bombesin-stimulated pancreatic secretion in the rat

Studies in dogs suggest that bombesin-stimulated pancreatic exocrine function is mediated via endogenous cholecystokinin. We studied (a) the short-term effects of bombesin on pancreatic juice volume and protein output in unconscious rats and (b) whether a potent cholecystokinin-receptor antagonist, L-364,718, affects the pancreatic exocrine response to bombesin. A 4-h i.v. infusion of low-dose (0.2 nmol/kg.h) or high-dose (1.0 nmol/kg.h) bombesin elicited significant increases in pancreatic juice volume and protein output, which were unaltered by treatment with L-364,718 at a dose capable of fully suppressing cholecystokinin-octapeptide-stimulated pancreatic juice volume and protein output. We conclude that the effects of exogenously administered bombesin on the exocrine pancreas in the rat are not mediated via release of endogenous cholecystokinin.     

Cholecystokinin antagonist prevents hyperamylasemia and improves pancreatic exocrine function in cerulein-induced acute pancreatitis.

Supramaximal cerulein administration induces acute pancreatitis, which markedly impairs pancreatic secretion in conscious rats. We hypothesized that pretreatment with the potent cholecystokinin antagonist, L-364,718, improves the pancreatic secretory impairment associated with cerulein-induced acute pancreatitis. Rats were surgically prepared with gastric, duodenal, bile, and pancreatic fistulas and jugular vein catheters. On postoperative day 4, groups of rats were administered (a) L-364,718 1 mg/kg intraduodenally, (b) cerulein 5 micrograms/kg/h for 6 h intravenously, (c) L-364,718 1 mg/kg intraduodenally followed by cerulein 5 micrograms/kg/h for 6 h intravenously, and (d) safflower oil carrier intraduodenally. On postoperative day 5, we studied cholecystokinin (CCK)-stimulated pancreatic secretion. Plasma amylase was measured at the time of surgery and at the conclusion of experiments on postoperative days 4 and 5. The duodenally administered CCK antagonist had no effect, 24 h later, on CCK-evoked protein secretion and prevented the pancreatic exocrine impairment and hyperamylasemia caused by supramaximal cerulein administration. These observations suggest that cerulein-induced acute pancreatitis is mediated by a CCK-receptor mechanism.     

Cholecystokinin release by gastric distension--an atropine-sensitive mechanism

The effect of gastric distension on plasma cholecystokinin (CCK), pancreatic polypeptide (PP) and gastrin concentrations was investigated in healthy volunteers. Fundic and antral distension was achieved by balloons attached to a gastric tube and inflated with 300 and 600 ml and 100 and 200 ml of air for fundic and antral distension, respectively. Gastric juice was continuously aspirated. Fundic distension was additionally studied during a concomitant intravenous infusion of atropine (5 micrograms/kg/h) or a bolus injection of propranolol (2 mg). Fundic distension with 300 ml caused a significant increase in PP release (+17% above basal). Distension with 600 ml significantly stimulated CCK (+81%), gastrin (+31%) and PP output (+74%) over 30 min. Atropine completely blocked PP release and almost abolished CCK release, whereas gastrin output was enhanced. Propranolol did not prevent CCK release induced by fundic distension, whereas gastrin and PP responses were diminished. Antral distension did not cause any significant changes in hormone response. In conclusion, we demonstrated a gastric phase of CCK release which is atropine sensitive, but not influenced by propranolol.     

Effect of synthetic human cholecystokinin-33 on pancreatic blood flow in dogs

We have examined the effect of synthetic human cholecystokinin (CCK-33 and CCK-8) on pancreatic blood flow and protein output in anesthetized dogs. Human CCK-33 and CCK-8 increased pancreatic blood flow and protein output in a dose-related manner. There were no significant differences in increasing pancreatic blood flow between human CCK-33 and CCK-8, and increases in blood flow were closely related to the increase of the pancreatic enzyme secretion. L-364,718 (20 nmol/kg) caused a potent inhibition of CCK-stimulated pancreatic blood flow as well as protein output. The degree of inhibition by L-364,718 was dependent on the amount of CCK infused. This study demonstrates that increasing effect on pancreatic blood flow may be one of the biological actions of CCK mediated via CCK receptor. The CCK-33, one of longer molecular forms of CCK, is an important biological stimulator of pancreatic blood flow as well as of exocrine pancreatic secretion.     

Endogenous cholecystokinin release responsible for pancreatic growth observed after pancreatic juice diversion

This study was undertaken to determine whether intermittent pancreatic juice diversion (PJD) from the intestine can induce pancreatic and duodenal growth. Concomitant infusions of SMS 201-995, a somatostatin analog, and L-364,718, a cholecystokinin (CCK) receptor antagonist, were used to establish the involvement of endogenous CCK. Fed rats equipped with biliary, duodenal, and pancreatic cannulae had their pancreatic juice diverted 8 h/day for 4 days and were infused or not with either SMS 201-995 (5 micrograms/kg.h) or L-364,718 (0.5 mg/kg.h) during diversion. After 4 days, rats were killed, and their pancreas and duodenum were excised for measurements of parameters indicative of growth. In normally fed rats with pancreatic juice returned, SMS 201-995 inhibited daily pancreatic secretions of volume and protein, whereas L-364,718 inhibited only protein output. These two inhibitors had no effect on normal pancreatic and duodenal growth. PJD was associated with increased volume and protein output, increased plasma CCK level, and pancreatic growth. All of these effects were completely blocked by SMS 201-995 and L-364,718, with the exception of plasma CCK level by the CCK antagonist. None of these treatments affected duodenal growth. These results suggest that intermittent infusions of these two inhibitors had no effect on normal pancreatic and duodenal growth, but were successful in preventing pancreatic growth induced by PJD. They also indicate that endogenous CCK is involved in PJD-induced pancreatic growth.     

Synthetic neuromedin C stimulates exocrine pancreatic secretion in dogs and rats

We have examined the effect of neuromedin C on exocrine pancreatic secretion both in vivo and in vitro, and compared its bioactivity with those of related peptides. In anesthetized dogs, neuromedin C caused a dose-dependent initial reduction of pancreatic blood flow and an increase in secretin-stimulated exocrine pancreatic secretion, and had almost the same potency as gastrin-releasing peptide (GRP) in decreasing pancreatic blood flow. A potent stimulatory effect on exocrine pancreatic secretion was found in conscious dogs accompanied by a significant elevation in the circulating cholecystokinin (CCK) levels. In isolated rat pancreatic acini, amylase was released dose-dependently in response to neuromedin C. This study demonstrates that neuromedin C (a smaller molecular form of GRP) possesses potent bioactivity on exocrine pancreas and suggests that two factors may be involved in the mechanism by which this peptide effects exocrine secretion, namely; direct stimulation on acinar cells and stimulation of CCK release.     

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.     

Biochemical and pharmacological characterization of an extremely potent and selective nonpeptide cholecystokinin antagonist.

3S(-)-N-(2,3-dihydro-1-methyl-2-oxo-5-phenyl-1H-1,4- benzodiazepine-3-yl)-1H-indole-2-carboxamide (L-364,718) interacted in a competitive manner with rat pancreatic cholecystokinin (CCK) receptors as determined by Scatchard analysis of the specific binding of 125I-labeled CCK. The affinity of L-364,718 for both pancreatic (IC50, 81 pM) and gallbladder (IC50, 45 pM) CCK receptors in radioligand binding assays greatly exceeded that of other reported nonpeptide CCK antagonists and was similar to that of CCK itself. In vitro functional studies utilizing CCK-induced contractions of the isolated guinea pig ileum and colon further demonstrated that L-364,718 acts as a competitive CCK antagonist, which lacks agonist activity and has a similar high affinity in these tissues (pA2, 9.9). L-364,718 exhibited a very high selectivity for peripheral CCK receptors relative to brain CCK, gastrin, and various other peptide and nonpeptide receptors in both in vitro radioligand and isolated tissue assays. In vivo, low intravenous doses of L-364,718 (0.1 mg/kg) markedly antagonized the contractions of the guinea pig gallbladder produced by intravenous administration of CCK for at least 2 hr. Administered orally, L-364,718 (ED50, 0.04 mg/kg) was highly effective as an antagonist of CCK-induced inhibition of gastric emptying in mice. The biochemical and pharmacological properties of L-364,718--namely, very high affinity and selectivity for peripheral CCK receptors, long-lasting in vivo efficacy, and oral bioavailability--makes this compound a powerful tool for investigating the physiological and pharmacological actions of CCK, and possibly its role in gastrointestinal disorders.     

Antagonism of receptors for bombesin, gastrin and cholecystokinin in pancreatic secretion and growth.

The effects of bombesin, gastrin and cholecystokinin (CCK) on amylase secretion from the isolated rat pancreatic acini and on DNA synthesis (as biochemical indicator of trophic action) in the pancreas have been examined in 48-hour fasted and 16-hour refed rats with and without administration of specific receptor antagonists for bombesin, gastrin and CCK. Studies on the isolated rat acini revealed that bombesin, gastrin and CCK-8 all showed the same efficacy in their ability to stimulate amylase release. RC-3095, bombesin pseudo-peptide antagonizing bombesin receptors, was effective only in suppressing the amylase response to bombesin but not to gastrin or CCK. Benzodiazepine receptor antagonists for gastrin (L-365,260) and for CCK (L-364,718) showed higher efficacy in the inhibition of amylase release induced by pentagastrin and CCK, respectively, but failed to affect that induced by bombesin. These peptides administered 3 times daily for 48 h in fasted rats increased the rate of DNA synthesis as measured by the incorporation of [3H]thymidine into DNA. The blockade of bombesin receptors abolished the DNA synthesis induced only by bombesin but not by gastrin or CCK. The blockade of gastrin receptors by L-365,260 suppressed the DNA synthesis induced by gastrin while the antagonism of CCK receptors by L-364,718 was effective only against CCK. Refeeding of 48-hour fasting rats strongly enhanced DNA synthesis which was significantly reduced by blocking only the CCK receptors (with L-364,718), but not the bombesin (with RC-3095) or gastrin receptors (with L-365,260).(ABSTRACT TRUNCATED AT 250 WORDS)     

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.     

Immunoneutralization of circulating pancreatic polypeptide and pancreatic secretion

To determine the role of endogenous pancreatic polypeptide (PP) as a physiological inhibitor of pancreatic secretion, normal rabbit serum (control) or rabbit PP-antiserum was administered intravenously to dogs with chronic esophageal, gastric, and pancreatic fistulas. In all dogs tested, sham-feeding and ordinary feed with a meat meal resulted in a marked rise in the plasma level of immunoreactive PP that coincided with an increase in the exocrine pancreatic secretion of HCO3- and protein. After intravenous administration of PP antiserum, endogenous plasma PP was almost completely bound by infused antibodies to PP, whereas no such binding was detected after infusion of normal rabbit serum. In contrast, plasma gastrin remained unchanged both under basal and stimulated conditions. Immunoneutralization of PP, released endogenously, failed significantly to affect gastric acid and pancreatic protein responses to sham-feeding and the pancreatic HCO3- and protein responses to feeding a meat meal in chronic pancreatic fistula dogs. However, the PP antiserum abolished, in part, the inhibitory effect of exogenous PP on pancreatic secretion stimulated by exogenous hormones. We conclude that endogenous PP is not a physiological inhibitor of exocrine pancreatic secretion, as has been suggested previously.     

Effects of endogenous and exogenous cholecystokinin and of infusion with the cholecystokinin antagonist L-364,718 on pancreatic and gastrointestinal growth

Continuous subcutaneous infusion of cholecystokinin (CCK-8; 5 micrograms/kg/h) to rats for 7 weeks raised the plasma CCK concentration almost fivefold and increased the pancreatic weight by about 50% but was without effect on the gastrointestinal tract. Continuous subcutaneous infusion of the CCK antagonist L-364,718 (200 micrograms/kg/h) for 7 weeks reduced the weight of the pancreas by about 30% but was without effect on the gastrointestinal tract. The effect of continuous subcutaneous infusion of CCK-8 and L-364,718 in combination was very similar to that of L-364,718 alone. Pancreaticobiliary diversion (PBD) induced a nearly 10-fold increase in the plasma CCK concentration 3 and 7 weeks after the operation. The serum gastrin values were unaffected. The weight of the pancreas was more than doubled after 7 weeks. At the same time the small intestine had gained weight, but the colon was unaffected. Continuous subcutaneous infusion of L-364,718 prevented the effect of PBD on the pancreas. On the basis of the assumption that L-364,718 is a specific antagonist of CCK, we conclude that endogenous CCK has a trophic effect on the pancreas but not on the gastrointestinal tract and that it is essential for normal pancreatic growth.     

Role of cholecystokinin in cholestyramine-induced changes of the exocrine pancreas

This study was an investigation of the role of cholecystokinin (CCK) in the stimulatory action of cholestyramine on rat exocrine pancreas. Postprandial CCK release was significantly enhanced by acute administration of cholestyramine (12.7 +/- 1.8 vs 3.7 +/- 0.5 pmol/L in controls). Over four weeks, rats were fed either regular diet or diet containing 6% cholestyramine, and were treated with the specific CCK receptor antagonist L-364,718 (2 x 0.5 mg/kg body weight/day s.c.) or DMSO (vehicle for the antagonist). Cholestyramine significantly increased pancreatic weight and trypsin and chymotrypsin contents. L-364,718 abolished these effects. Concomitant administration of antagonist and cholestyramine elevated amylase content, compared to controls. CCK levels in fasted animals did not differ between the four groups. The effect of the same dose of L-364,718 on pancreatic enzyme depletion, induced by the protease inhibitor camostate, was studied in a control experiment. A single dose of camostate (200 mg/kg) caused a 44-68% decrease in enzyme content. L-364,718 reversed this effect for all enzymes. We conclude that CCK is the mediator of cholestyramine-induced pancreatic hypertrophy and increase in content of proteases. After long-term administration, the CCK receptor antagonist, in combination with cholestyramine revealed an agonistic effect on individual, pancreatic enzyme content.     

On the role of gastrin-releasing peptide in meal-stimulated exocrine pancreatic secretion.

The contribution of gastrin-releasing peptide (GRP) in the physiologic pancreatic response to a meal is unknown. We therefore investigated whether immunoneutralization of GRP could influence the exocrine pancreatic response to a meal as well as plasma concentrations of the peptide hormones neurotensin (NT) and cholecystokinin (CCK). Modified Herrera fistulas were implanted in five mongrel dogs. After a standard meal, we analyzed plasma NT, CCK, and GRP, and protein and enzyme (amylase, lipase, trypsin) content of exocrine pancreatic juice. An unspecific rabbit immunoglobulin solution was administered intravenously as a control. This experiment was repeated with a specific anti-GRP-immunoglobulin. The i.v. administration of the anti-GRP-antibody significantly inhibited meal-stimulated pancreatic secretion. Integrated protein output decreased from 58.4 to 36.8 g/180 min (p < 0.05), as did amylase (2,102 to 1,145 KU/180 min; p < 0.05), lipase (2,258 to 1,172 KU/180 min; p < 0.05), and trypsin (5,321 to 4,990 U/180 min). Postprandially released NT decreased from 8,271 to 5,825 pmol/180 min (p < 0.05). In contrast, integrated amounts of CCK remained relatively stable with 473 to 611 pmol/180 min. The neuropeptide GRP is one of the biologically important regulatory factors influencing meal-stimulated pancreatic secretion, as well as the postprandial plasma level of the peptide hormone NT in the dog. These mentioned effects of postprandially released GRP seem not to be mediated by CCK in an endocrine manner.