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.     

CCK receptors in release of pancreatic polypeptide (PP) in dogs

Pancreatic polypeptide (PP) is released after ingestion of protein-fat meals and following administration of some gut hormones (CCK and bombesin), but the hormonal contribution to the physiological release of PP has not been elucidated. We used specific and potent CCK-receptor antagonist, L-364,718, administered intravenously in a dose of 0.5 mumol/kg or intraduodenally in a dose of 2 mumol/kg to assess the role of CCK in the release of PP. Exogenous CCK-8 infused intravenously in gradually increasing doses (12.5-400 pmol/kg/hr) caused a dose-dependent increase in plasma PP from basal 28 +/- 4 pM to 136 +/- 18 pM, and this PP increase was completely suppressed by both intravenous and intraduodenal administration of L-364,718. Meat feeding caused a dramatic increase in plasma PP from a basal level of 26 +/- 4 pM to a peak of about 190 +/- 32 pM, and the pretreatment with intravenous or intraduodenal L-364,718 reduced this PP increase by about 60%. Duodenal perfusion with oleate (0.12-4.0 mmol/hr) or L-Trp (0.12-4.0 mmol/hr) also increased plasma PP, reaching, respectively, 180 +/- 28 pM and 76 +/- 6 pM. Pretreatment with intravenous or intraduodenal L-364,718 completely abolished the plasma PP responses to oleate and L-Trp. Bombesin (100 pmol/kg/hr) raised plasma PP to the level similar to that achieved by meat feeding and L-364,718 given intravenously or intraduodenally blocked completely these plasma PP increments.(ABSTRACT TRUNCATED AT 250 WORDS)     

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)     

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.     

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.     

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.     

Effects of CCK-receptor antagonists on CCK-stimulated pepsinogen secretion and calcium increase in isolated guinea pig gastric chief cells

The effects of CCK-receptor antagonists such as dibutyryl cyclic GMP (dbcGMP), L-364,718, and CR1409 on COOH-terminal octapeptide of CCK (CCK-8) -stimulated chief cell responses were examined using isolated guinea pig gastric chief cells. L-364,718 and CR1409 inhibited CCK-8-stimulated pepsinogen secretion over the same concentration range as they inhibited CCK-8-stimulated increases in intracellular Ca²⁺ concentration ([Ca²⁺]i), respectively. Schild analysis of the CCK dose-response curve indicates that L-364,718 and CR1409 exert their inhibitory effects on CCK-8-stimulated chief cell responses in a competitive manner. By contrast, dbcGMP inhibited not only CCK-8-but also carbachol-stimulated pepsinogen secretion. Furthermore, dbcGMP inhibited CCK-8-stimulated pepsinogen secretion more potently than the increases in [Ca²⁺]i. These results suggest that L-364,718 and CR1409 act as CCK-receptor antagonists, but dbcGMP has another inhibitory effect on pepsinogen secretion in addition to the effect as a CCK-receptor antagonist in guinea pig gastric chief cells.     

Subtypes of muscarinic receptors in canine pancreatic secretion in vivo and in vitro

In conscious dogs with esophageal, gastric and pancreatic fistulae, sham-feeding and meat feeding increased the pancreatic protein secretion to a peak, reaching about 39% and 69% of CCK8 maximum, and raised plasma pancreatic polypeptide (PP) levels. Pirenzepine given intravenously (i.v.) (30 nmol.kg-1 or 3 mumol.kg-1) reduced dose-dependently the pancreatic protein and plasma PP responses to sham-feeding and meat feeding, being about 100 times less potent as an inhibitor than atropine. Neither pirenzepine nor atropine affected near-maximal pancreatic bicarbonate and protein responses to secretin (164 pmol.kg-1.h-1) and CCK8 (170 pmol.kg-1.h-1), but both antimuscarinic agents significantly inhibited pancreatic responses to lower doses of these secretagogues. When added to the incubation medium of dispersed canine pancreatic acini, pirenzepine reduced dose-dependently the amylase responses only to urecholine, and not to CCK or gastrin, being about 1000 times less potent as an inhibitor than atropine. This report provides an evidence that pirenzepine inhibits pancreatic secretion in a similar manner to atropine, but that pirenzepine, in both in vivo and in vitro studies, is 2-3 orders of magnitude less potent as an inhibitor than atropine, indicating that the muscarinic pathway of the exocrine pancreas has a low affinity for pirenzepine and may thus involve M2-receptors.     

Role of secretin and CCK in the stimulation of pancreatic secretion in conscious dogs. Effects of atropine and somatostatin

The role of gut hormones, such as secretin and CCK, in the stimulation of pancreatic secretion by duodenal HCl or oleate and by meat feeding has been studied in conscious dogs before and after pretreatment with atropine and somatostatin. Plasma hormones were measured by specific and sensitive radioimmunoassays. Duodenal perfusion with HCl and oleate stimulated dose-dependently pancreatic HCO3 and protein secretion and raised plasma levels of secretin and CCK, respectively. Atropine reduced significantly both HCO3 and protein secretion but did not affect plasma secretin and CCK levels in these studies. Both exocrine pancreatic secretion and plasma secretin and CCK levels were suppressed by somatostatin. Meat feeding caused a marked pancreatic HCO3 and protein secretion accompanied by a significant increase in plasma secretin and CCK which seem to play an important role in the postprandial pancreatic stimulation. Both atropine and somatostatin reduced the pancreatic secretion induced by exogenous hormones but only somatostatin, but not atropine, significantly decreased plasma secretin and CCK responses to intestinal stimulants. We conclude that both atropine and somatostatin reduce the pancreatic responses to duodenal HCl or oleate or to meat feeding but only somatostatin is capable of suppressing the release of secretin and CCK.     

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.     

Direct demonstration of three different states of the pancreatic cholecystokinin receptor.

We used rat pancreatic acini as well as COS-7cells transfected with the cloned pancreatic cholecystokinin (CCK) receptor andmeasured the abilities of CCK octapeptide (CCK-8) and L-364,718 (a CCK receptorantagonist) to inhibit binding of 125I-labeled CCK-8 (125I-CCK-8) and[3H]L-364,718. With pancreatic acini 125I-CCK-8 bound to two different states ofthe CCK receptor. The high-affinity state (1% of the receptors) had a Kd forCCK-8 of 985 pM and the low-affinity state (19% of the receptors) had a Kd forCCK-8 of 30 nM. [3H]L-364,718 bound to low-affinity receptors and to apreviously unrecognized very-low-affinity state (80% of the receptors) having aKd for CCK-8 of 13 microM. L-364,718 had the same affinity (Kd 3 nM) for each ofthe three different states of the CCK receptor. Similar measurements usingtransfected COS cells also identified three different states of the CCKreceptor, with the very-low-affinity state being the most abundant. Thus, theability of the CCK receptor to exist in three different states is an intrinsicproperty of the CCK receptor molecule itself.     

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.     

Cholecystokinin-octapeptide stimulates hypothalamic-pituitary-adrenal function in rats: role of corticotropin-releasing hormone.

Peripherally-administered cholecystokinin (CCK) is a profound suppressor of food intake, can promote anxiety, and causes the acute release of ACTH into plasma. Centrally administered corticotropin-releasing hormone (CRH), on the other hand, not only represents the principal stimulus to the pituitary corticotroph cell, but also has been shown to suppress appetite and to be profoundly anxiogenic. Because of the overlap in the effects of peripherally administered CCK and of centrally administered CRH, we report here a study to determine whether sulphated CCK octapeptide (CCK-8) could induce the release of CRH within the central nervous system. To accomplish this task, we first assessed the dose-related effects of CCK-8 on ACTH release. Graded doses of CCK-8 (0.1-10 micrograms/kg BW) given in an i.v. bolus to freely moving male rats, resulted in a dose-dependent increase of plasma immunoreactive (IR)-ACTH (ED50: 1-10 micrograms/kg BW). The lowest maximal stimulatory dose of CCK-8 (5 micrograms/kg BW) was used in all subsequent experiments. To evaluate whether CCK-induced ACTH secretion was mediated by a peripheral CCK receptor, an i.v. bolus injection of vehicle or L-364,718 (1 mg/kg BW), a specific, highly potent peripheral CCK receptor antagonist, was given before the i.v. administration of CCK-8 or vehicle. Plasma IR-ACTH response to CCK-8 was significantly attenuated by L-364,718. A role for the vagal afferents that contain CCK receptors in peripherally administered CCK-mediated hypothalamic-pituitary-adrenal (HPA) axis activation was examined in animals that had been pretreated with capsaicin, a potent neurotoxin that destroys vagal afferents. Plasma IR-ACTH and IR-corticosterone responses in capsaicin-treated animals were significantly lower than those in vehicle treated rats. In subsequent in vivo experiments, pituitary stalk-transected and sham-operated animals were used to evaluate whether CCK-8 stimulates the HPA axis via a centrally mediated mechanism. IR-ACTH and IR-corticosterone responses to i.v. CCK-8 were significantly reduced in the pituitary stalk-transected compared to sham-operated animals. In further effort to determine whether the central nervous system was involved in the plasma IR-ACTH response to the peripheral administration of i.v. CCK-8, we compared the effects of the i.v. administration of CRH antisera vs. normal rabbit serum on this parameter. IR-ACTH and IR-corticosterone responses to i.v. CCK-8 were significantly reduced in the context of pretreatment with CRH antisera compared to the administration of normal rabbit serum.(ABSTRACT TRUNCATED AT 400 WORDS)     

Effect of a cholecystokinin antagonist on meal-stimulated insulin and pancreatic polypeptide release in humans

A cholecystokinin (CCK) receptor antagonist, loxiglumide, was used to investigate the potential regulating role of CCK in the entero-insular axis in humans. Ingestion of a mixed liquid meal stimulated plasma CCK, insulin, and pancreatic polypeptide (PP) release in the control experiment. With iv loxiglumide (22 mumol/kg.h), mean plasma insulin and glucose levels did not differ between placebo and loxiglumide treatment. The area under the plasma concentration for PP was reduced to 6,060 +/- 1,706 (P less than 0.05) compared to that during placebo treatment (12,266 +/- 4,748). Administration of loxiglumide failed to change insulin secretion in response to perfusion of the same meal or perfusion of a 10-amino acid solution into the duodenum. However, PP secretion in response to the intraduodenal meal or amino acid mixture was abolished after loxiglumide (P less than 0.05). Intravenous administration of the 10-amino acid mixture stimulated insulin from a mean basal level of 7 +/- 3 microU/mL to a peak level of 16 +/- 4 microU/mL. Infusion of a CCK octapeptide (CCK-8) at 8.6 pmol/kg.h, which produced a plasma concentration of 3.3 pmol/L, which is within the postprandial range, augmented amino acid-stimulated insulin and PP output (P less than 0.05). When CCK-8 was infused with loxiglumide, the insulin and PP responses were similar to the values found with loxiglumide alone. We conclude that CCK receptor blockade with iv loxiglumide does not affect postprandial insulin secretion. CCK is, therefore, not a major incretin. However, it is involved in the postprandial PP response, especially during the intestinal phase stimulation. These data suggest that CCK has a role in the human enteroinsular axis.     

Effect of the prokinetic drug cisapride on gastrointestinal hormone release

The influence of the prokinetic drug cisapride on the release of gastrointestinal hormones was studied in volunteers. First, acute effects of single doses of cisapride compared with saline were investigated. Cisapride at doses of 8 mg and 20 mg intravenously significantly increased plasma concentrations of pancreatic polypeptide (hPP) by 145% and 146%, respectively. Cholecystokinin (CCK) levels were increased by 176% at 8 mg cisapride, whereas gastrin and insulin levels remained unchanged. Enhancement of PP and CCK secretion was almost completely abolished by pretreatment with 1 mg atropine. Carbachol (250 micrograms subcutaneously) increased PP release by 62% but did not affect the other hormones. Second, the influence of a 1-week treatment (10 mg three times daily, given orally) on plasma hormone levels was studied. After 1 week the postprandial CCK release was diminished by 58%. Basal levels and postprandial responses of gastrin, PP, and insulin were not altered by prolonged cisapride administration. It is concluded that acute application of cisapride stimulates secretion of PP and CCK via atropine-sensitive mechanisms and that chronic treatment with cisapride diminishes CCK release by an unknown mechanism.     

Liver Disease in α1-Antitrypsin Deficiency: Aspects of Incidence and Prognosis

The influence of the prokinetic drug cisapride on the release of gastrointestinal hormones was studied in volunteers. First, acute effects of single doses of cisapride compared with saline were investigated. Cisapride at doses of 8mg and 20 mg intravenously significantly increased plasma concentrations of pancreatic polypeptide (hPP) by 145% and 146%, respectively. Cholecystokinin (CCK) levels were increased by 176% at 8 mg cisapride, whereas gastrin and insulin levels remained unchanged. Enhancement of PP and CCK secretion was almost completely abolished by pre-treatment with 1 mg atropine. Carbachol (250 ug subcutaneously) increased PP release by 62% but did not affect the other hormones. Second, the influence of a 1-week treatment (10 mg three times daily, given orally) on plasma hormone levels was studied. After 1 week the postprandial CCK release was diminished by 58%. Basal levels and postprandial responses of gastrin, PP, and insulin were not altered by prolonged cisapride administration. It is concluded that acute application of cisapride stimulates secretion of PP and CCK via atropine-sensitive mechanisms and that chronic treatment with cisapride diminishes CCK release by an unknown mechanism.     

Cholecystokinin-mediated ileal electrolyte transport in the guinea pig. Characterization of receptor subtype

Cholecystokinin (CCK) receptors are currently divided into at least two subtypes: a CCK-A subtype, responsive to the sulfated form of cholecystokinin octapeptide (CCK-8) and selectively antagonized by L-364,718, and a CCK-B subtype, which shares equal affinities for gastrin and CCK-8. In the present study the receptor subtype that mediates guinea pig ileal secretion by evaluating the potencies of CCK- and gastrin-related peptides to evoke increases in transmucosal short-circuit current was characterized. The antagonist potencies of L-365,260 (CCK-B selective) and L-364,718 (CCK-A selective) against CCK-8 were also determined. Both CCK-8 and cerulein, when added to the serosal side of the tissue, evoked increases in the short-circuit current, having EC50 values of 0.8 and 0.2 nmol/L, respectively. Desulfated (SO3) CCK-8, CCK-4, gastrin17-I, pentagastrin, gastrin17-II, and gastrin13-I were relatively weak agonists (EC50 greater than 1000 nmol/L. Cholecystokinin octapeptide-induced short-current responses were competitively antagonized by L-364,718 (pA2, 10.3) and L-365,260 (pA2, 7.4). The high selectivity of the tissue for sulfated CCK-8 suggests that the secretory effect of CCK-8 on guinea pig ileal electrolyte transport is mediated by a CCK-A receptor. The potent effect of L-364,718 against CCK-8 is also consistent with an action at the A-subtype receptor.     

Effect of a new CCK-receptor antagonist, CR 1409, on pancreatic growth induced by caerulein, CCK-8, bombesin and gastrin-releasing peptide in the rat

The effect of a peripheral cholecystokinin (CCK)-receptor antagonist, CR 1409, on pancreatic growth has been studied in the rat. 1.8 nmol/kg CCK-8 or caerulein and 3.6 nmol/kg bombesin or gastrin-releasing peptide (GRP) administered subcutaneously 3 times daily for 4 successive days increased pancreatic weight and its content in protein, enzymes and RNA but not in DNA, suggesting cellular hypertrophy. CR 1409 (10 mg/kg) administered intragastrically 30 min prior to peptides prevented pancreatic growth due to CCK-8 or caerulein but not that induced by bombesin and GRP. It is concluded that bombesin and GRP act on the exocrine pancreas directly rather than through the release of CCK.     

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.