In vitro and in vivo effect of proglumide on cholecystokinin-stimulated amylase release in mouse pancreatic acini

The effect of proglumide on cholecystokinin (CCK)-stimulated amylase release was studied in vitro and in vivo in dispersed acini from mouse pancreas. In an in vitro study, proglumide at concentrations between 0.3-10 mM inhibited CCK-stimulated amylase release dose-dependently, while proglumide did not influence the basal amylase release at concentrations between 0-3 mM. Dose-response curves to CCK for amylase release shifted to the right with increase in proglumide concentration. This inhibition by proglumide was reversible. In addition, the effect of proglumide was selective for CCK and its related peptide, and this drug did not inhibit other secretagogues such as carbachol or gastrin releasing peptide in mouse acini. In contrast to its inhibitory effect in vitro, in vivo administration of proglumide (500 mg/kg/day, i.p., for 5 days) to mice did not cause the rightward shift of the dose-response curve to CCK for amylase release from dispersed acini.     

Inhibitory effect of a new proglumide derivative, loxiglumide, on CCK action in isolated rat pancreatic acini

The effect of a new proglumide derivative, loxiglumide (DL-4-(3,4-dichloro-benzoyl-amino)-5-(N-3-methoxy-propyl-pentylamino+ ++)-5-oxo-pentanic acid; CR 1505), on binding of 125I-CCK-8 and amylase release stimulated by CCK-8 was investigated in isolated rat pancreatic acini. Loxiglumide inhibited CCK-8-stimulated amylase release and binding of 125I-CCK-8 to rat pancreatic acini in a dose-dependent manner. Loxiglumide caused a concentration-dependent rightward shift of the dose-response curve for CCK-8-stimulated amylase release without altering the maximal response. Schild plots showed a slope of 0.82 and pA2 value of 7.05. The inhibitory effect of loxiglumide on amylase release was reversible. Loxiglumide significantly inhibited amylase release in response to CCK-8, caerulein and gastrin-I. However, loxiglumide had no effect on amylase release stimulated by other receptor secretagogues (bombesin, carbamylcholine, secretion and vasoactive intestinal polypeptide) or by agents bypassing receptors (A23187 and TPA). These results indicate that loxiglumide acts as a potent, competitive and specific CCK antagonist on the pancreatic acini.     

Effects of a new proglumide analogue CR 1392 on pancreatic exocrine secretion in the rat

The effects of proglumide analogue. CR 1392, on pancreatic exocrine secretion were studied in the isolated pancreatic acini and the isolated perfused pancreata of rats. In the isolated acini, CR 1392 caused a parallel rightward shift of the dose-response curve for amylase secretion stimulated by cholecystokinin octapeptide (CCK-8). CR 1392 inhibited maximally stimulated amylase release by CCK-8 (100 pM) in a concentration-dependent manner, with a half maximal inhibition (ID50) at 8.0 +/- 0.6 microM. CR 1409, another proglumide analogue, also caused a concentration-dependent inhibition (ID50: 3.2 +/- 0.4 microM). Although CR 1409 was about 2.5-fold more potent than CR 1392 in inhibiting the stimulated amylase release, 1 mM CR 1409 caused 107.4 +/- 0.9% increase in amylase release, suggesting acinar cell damage. CR 1392 (1 mM) also caused 19.9 +/- 2.3% increase in amylase release, but was less toxic than CR 1409. The antagonism produced by CR 1392 was selective for CCK and had no effect on amylase release stimulated by other receptor secretagogues or by agents bypassing receptors. CR 1392 added 20 min after the CCK-8 stimulation rapidly abolished pancreatic exocrine secretion in both isolated acini and isolated perfused pancreas. Although the inhibitory effect of CR 1392 was fully reversible in the isolated acini, the pancreata perfused with 100 microM CR 1392 for 20 min did not respond to the subsequent stimulation with CCK-8 for more than 20 min. These results indicate that CR 1392 is a potent, competitive, specific and long acting antagonist of CCK in rat pancreas.     

Loxiglumide

D,l-4-(3,4-dichlorobenzoylamino)-5-(N-3-methoxypropyl-pentylamino)-5-oxopentanoic acid (CR 1505; loxiglumide) is a newly developed analog of proglumide. We examined the inhibitory effects of loxiglumide on pancreatic exocrine function in the isolated pancreatic acini and the isolated perfused pancreata of rats. Loxiglumide inhibited cholecystokinin octapeptide (CCK-8)-stimulated amylase release and, similarly, binding of[ ¹²⁵ I]CCK-8 to isolated rat pancreatic acini. Loxiglumide was about 3000 times more potent than the reference substance proglumide, but was about 1000 times less potent than L-364,718, another new CCK antagonist having benzodiazepine ring, in inhibiting CCK-8-stimulated amylase release. The inhibitory effect of loxiglumide displayed competitive kinetics and was specific for CCK in that the effects of other receptor secretagogues or agents bypassing receptors were not altered. The inhibitory effect of loxiglumide was fully reversible in isolated acini. However, the pancreata perfused with 10 M loxiglumide for 20 min did not respond to CCK-8 for more than 20 min even after the removal of loxiglumide infusion. In contrast, an immediate increase in pancreatic exocrine secretion was observed after proglumide removal. Loxiglumide appeared to be bound to the receptors on acinar cells in a slowly dissociating state. These results indicate that loxiglumide acts as a potent, competitive, and specific CCK antagonist on the exocrine pancreas and, because of its prolonged inhibitory action, may be useful as a therapeutic agent in pancreatic disease.This work was supported in part by a grant from the Japanese Ministry of Health and Welfare (Intractable Diseases of the Pancreas).     

Effects of porcine gastrin-releasing peptide on amylase release, 2-deoxyglucose uptake, and alpha-aminoisobutyric acid uptake in mouse pancreatic acini

The effects of synthetic porcine gastrin-releasing peptide (pGRP), a recently isolated gut hormone, were studied in isolated mouse pancreatic acini. pGRP was found to exert direct effects on amylase release, 2-deoxyglucose ( [3H] 2DG) uptake, and alpha-aminoisobutyric acid (AIB) uptake. The stimulatory effect of pGRP on amylase release was significant at 100 pM, and maximal at 1 nM. Higher concentrations of pGRP exerted a smaller stimulatory effect on amylase release. pGRP also increased [3H]2DG uptake, exerting a detectable effect at 300 pM, and a maximal effect at 30 nM. In contrast to its stimulatory effect on amylase release and [3H]2DG uptake, pGRP inhibited AIB uptake. A significant inhibitory effect on AIB uptake occurred at 100 pM, and a maximal inhibitory effect occurred at 3 nM. Dose-response curves of pGRP for amylase release and AIB uptake were found to be biphasic. Bombesin was also found to stimulate amylase release with a biphasic dose-response curve in mouse acini. Both cholecystokinin (CCK) octapeptide and the cholinergic analog carbachol exerted similar effects in isolated mouse acini. However, the effects of pGRP were not inhibited by either dibutyryl cyclic guanosine 3',5'-monophosphate or atropine, whereas the effects of CCK octapeptide were inhibited by dibutyryl cyclic guanosine 3',5'-monophosphate and the effects of carbachol were inhibited by atropine. These results indicate that pGRP can mimic the biological effects of CCK and acetylcholine, but that its actions are probably mediated via a separate class of receptors in mouse acini.     

Alteration of cholecystokinin receptor binding after caerulein-induced pancreatitis in rats.

The alteration of CCK receptor binding on the pancreatic acini in vitro following the induction of pancreatitis was investigated in male rats. Pancreatitis was induced by administering 5 intraperitoneal injections of caerulein, 40 micrograms/kg each at hourly intervals. The uptake of [3H]-thymidine in the pancreatic acini increased on day 7 following caerulein administration. The release of amylase stimulated by CCK-8, and CCK receptor analysis using bioactive [125I]-BH-CCK-8, were performed at regeneration stage, on days 14 and 28 following the injections. The maximal release of amylase stimulated by CCK-8 was reduced on day 14 by about 40% and recovered on day 28. On day 14 there was a decrease of 60% in the number of high-affinity receptors and an increase of 161% in the number of low-affinity receptors. On day 28 there was a 128% increase in the number of low-affinity receptors. Accordingly, we suggest that the CCK receptors of the regenerating cells following caerulein-induced pancreatitis differ from those of the intact cells.     

Cholecystokinin analog,JMV-180, stimulates growth of human pancreatic cancer

The gastrointestinal peptide CCK has been shown to stimulate growth of normal and malignant pancreatic tissue. The CCK receptor possesses several different binding sites for CCK. By using the CCK analog JMV-180, which is a functional agonist at CCK high-and low-affinity receptors and an antagonist at very low affinity receptors, and carbachol, which down-regulates binding to CCK high-affinity receptors, we evaluated which receptor is involved in growth of human pancreatic cancer cells. PANC-1 and MIA PaCa-2 human pancreatic cancer cell lines were grown for four to six days in the presence or absence of JMV-180 (10^–10–10^–6 M) alone or in combination with carbachol (10 mM). Growth was evaluated by counting cells and by [³H]thymidine incorporation. JMV-180 increased cell number in PANC-1 and MIA PaCa-2 cells 123% and 86%, respectively, over controls (P=0.004). DNA synthesis by [³H]thymidine uptake was increased 64% and 40% in PANC-1 and MIA PaCa-2 cells, respectively, over controls (P<0.001). The trophic effect of JMV-180 was not inhibited by the addition of carbachol. Since JMV-180 stimulated the growth and since the effect was not inhibited by carbachol, we suggest that the growth effects of CCK in pancreatic cancer cells are mediated by the low-affinity receptor.     

Pharmacologic profile of TS-941, a new benzodiazepine derivative cholecystokinin-receptor antagonist, in in vitro isolated rat pancreatic acini

We investigated the pharmacologic characteristics of a newly developed benzodiazepine derivative (S)-(-)-N-[2,3-dihydro-2-oxo-5-phenyl-1-[(1H-tetrazol-5-yl)methyl] -1H-1,4-benzodiazepine-3-yl]-2-indolecarboxamide (TS-941), a cholecystokinin type A (CCK-A)-receptor antagonist, in the isolated rat pancreatic acini and compared with those of well-known CCK-A-receptor antagonists, devazepide and loxiglumide. TS-941 inhibited CCK-8-stimulated amylase release concentration dependently, as did devazepide and loxiglumide, with a half-maximal inhibition (IC50) at 78.6 +/- 10.3 nM. TS-941 was approximately 23 times less potent than devazepide (IC50, 3.4 +/- 0.3 nM), but was 50 times more potent than loxiglumide (IC50, 3,966 +/- 544 nM) in inhibiting 100 pM CCK-8-stimulated amylase release from rat pancreatic acini. TS-941 had a fivefold lower selectivity than devazepide for pancreatic CCK (CCK-A) over brain CCK (CCK-B) receptors but fourfold greater than loxiglumide when IC50 values for inhibition of [125I]CCK-8 binding in isolated acini and cerebral cortex were compared. The antagonism produced by TS-941 was specific for CCK in that the effects of other receptor secretagogues or agents bypassing receptors were not altered. TS-941 caused a parallel rightward shift of the entire dose-response curve for CCK-8-stimulated amylase release without altering the maximal increase, as did devazepide and loxiglumide. TS-941, whether added at the beginning or 20 min after the CCK-8 stimulation, inhibited amylase release. TS-941 caused a concentration-dependent residual inhibition of the action of CCK-8. The acini, once incubated with a high concentration of TS-941 (10 microM; 127 times IC50) for 30 min, was 10-fold less sensitive to CCK-8 than the acini preincubated without TS-941, whereas the sensitivity and the responsiveness to CCK-8 stimulation of those incubated with a low concentration of TS-941 (1.0 microM) were similar to the control acini. These results indicate that TS-941 is a potent, competitive, and selective CCK-A receptor antagonist for the pancreas.     

Effect of L364718, a new CCK antagonist, on amylase secretion in isolated rat pancreatic acini

We examined the effect of L364718, a new cholecystokinin (CCK) receptor antagonist, on amylase release stimulated by CCK or different secretagogues in isolated rat pancreatic acini. L364718 caused a parallel rightward shift of the dose-response curve of CCK8. Schild plots showed a slope of 1.05 +/- 0.15 and a pA2 value of 10.01 +/- 0.31. L364718 inhibited maximally stimulated amylase release by CCK in a dose-dependent manner, with half maximal inhibition (ID50) at 1.7 nM and complete inhibition at 30 nM. Asperlicin, a prototype compound of L364718, also caused dose-dependent inhibition, but L364718 was approximately 400 times more potent than asperlicin (ID50 = 761 nM). L364718 significantly inhibited amylase release in response to CCK33 and CCK8 but had no effect on amylase release stimulated by other receptor secretagogues or agents by passing receptors. The results indicate that L364718 acts as an extremely potent, competitive, and specific antagonist of CCK's action on pancreatic acini.     

Antiproliferative gastrin/cholecystokinin receptor antagonists target the 78-kDa gastrin-binding protein.

Inhibition of colon carcinoma cell growth by the nonselective gastrin/cholecystokinin (CCK) receptor antagonists proglumide and benzotript provided evidence that gastrin functions as an autocrine growth factor. However, the molecular properties of the receptor mediating the antagonist effects have not been identified. A 78-kDa gastrin-binding protein (GBP), the sequence of which is related to the family of enzymes possessing enoyl-CoA hydratase and 3-hydroxyacyl-CoA dehydrogenase activities, has been previously purified from porcine gastric mucosal membranes. I now report that covalent cross-linking of 125I-labeled [Nle15]gastrin2,17 to the 78-kDa GBP is inhibited by crotonyl-CoA and by acetoacetyl-CoA. Gastrin, CCK, and their analogues also inhibit cross-linking, and the spectrum of analogue affinities correlates better with the values previously reported for binding to the gastrin/CCK-C receptor than with the values reported for binding to either the CCK-A or the gastrin/CCK-B receptor. Cross-linking is also inhibited by proglumide and benzotript, but no inhibition is seen with either the CCK-A receptor-selective antagonist L364,718 or the gastrin/CCK-B receptor-selective antagonist L365,260. The affinities of antagonists for the GBP correlate well with their affinities for the gastrin/CCK-C receptor and with their potencies for inhibition of colon carcinoma cell growth. I conclude that the 78-kDa gastrin-binding protein is (i) a member of the hydratase/dehydrogenase family of fatty acid oxidation enzymes, (ii) the gastrin/CCK-C receptor, and (iii) the target for the antiproliferative action of two gastrin/CCK receptor antagonists.     

Effect of antigastrin (SC-15396) on amylase release and 2-deoxyglucose uptake in mouse pancreatic acini

The effects of antigastrin (SC-15396) on amylase release and 2-deoxyglucose uptake were studied in dispersed acini from mouse pancreas. Antigastrin at concentrations between 0.5 and 2 mM inhibited cholecystokinin (CCK)-stimulated amylase release and 2-deoxyglucose uptake in a dose-dependent fashion. Antigastrin at concentrations between 0.5 and 2 mM inhibited carbachol-stimulated amylase release and 2-deoxyglucose uptake as well. In addition, the drug (2 mM) inhibited bombesin-stimulated amylase release and 2-deoxyglucose uptake. In contrast, the stimulation of amylase release by Ca2+ ionophore A23187 was not inhibited by antigastrin. The results, therefore, suggest that antigastrin nonselectively inhibits the actions of these secretagogues probably at their receptor sites.     

Selective inhibition of pentagastrin- and cholecystokinin-stimulated exocrine secretion by proglumide

The effectiveness and selectivity of proglumide, a putative cholecystokinin/gastrin receptor antagonist in vitro, were examined on gastric acid and pancreatic secretion in vivo. Gastric secretion was measured in conscious dogs in the basal state and during infusion of pentagastrin, histamine, or bethanechol, alone or in combination with proglumide (300 mg/kg . h). Pancreatic secretion was measured in anesthetized rats in response to cholecystokinin-octapeptide or secretin, alone or in combination with proglumide (100 mg/kg). Proglumide inhibited pentagastrin-stimulated secretion but had no effect on basal, histamine-stimulated, or bethanechol-stimulated gastric acid secretion. Inhibition of pentagastrin-stimulated secretion was of the competitive type. An apparent inhibitory constant was calculated to be 300 mg/kg . h; this dose is capable of eliciting plasma concentrations of approximately 1 mM. This estimate corresponds closely to that derived from measurements in isolated canine parietal cells. Proglumide also inhibited cholecystokinin-stimulated but not secretin-stimulated pancreatic secretion. The lack of effect of proglumide on basal, histamine-stimulated, or bethanechol-stimulated gastric acid secretion implies that background gastrin has no direct or synergistic influence on stimulation by other secretagogues. The selective effect of gastrin receptor antagonists contrasts with the effectiveness of muscarinic and histamine H2-receptor antagonists against secretion induced by all types of stimulants. Accordingly, the antisecretory potential of gastrin receptor antagonists is confined to digestive secretion when the effect of gastrin is optimal. Their potential as antitrophic agents in duodenal ulcer disease, however, has not been explored yet.     

Cytosolic calcium regulates epidermal growth factor endocytosis in rat pancreas and cultured fibroblasts.

Cholecystokinin octapeptide (CCK8), the COOH-terminal moiety of cholecystokinin (CCK), exerted a rapid inhibitory effect on total cell-associated 125I-labeled epidermal growth factor (125I-EGF) binding by decreasing the rate of EGF internalization in isolated rat pancreatic acini. Removal of CCK8 from incubation medium followed by extensive washing of acini did not abolish its inhibitory effect, indicating that its action was not readily reversible. Proglumide, a competitive antagonist of CCK8, blocked the inhibitory action of the secretagogue. Addition of CCK8 to cells previously exposed to 125I-EGF did not enhance the release of cell-associated 125I activity. CCK8 did not inhibit the binding of 125I-labeled insulin to pancreatic acini. Other pancreatic secretagogues that enhance digestive-enzyme release through Ca2+, including caerulein, bombesin, carbachol, gastrin, and the Ca2+ ionophore A23187, also inhibited cell-associated 125I-EGF radioactivity. Further, at 37 degrees C the ionophore A23187 inhibited specific 125I-EGF binding in human A-431 carcinoma cells, Swiss 3T3 cells, and Rat-1 fibroblasts, and this effect was abolished when 125I-EGF internalization was reduced by incubating cells at 4 degrees C. It is concluded that alterations in cellular Ca2+ in the pancreas and other cells lead to inhibition of EGF endocytosis.     

Synthetic CCK8 analogs with antagonist activity on pancreatic receptors: in vivo study in the rat, compared to non-peptidic antagonists.

The cholecystokinin octapeptide (CCK8)-derived synthetic peptides Boc-Tyr(SO3H)-Nle-Gly-DTrp-Nle-Asp-O-CH2-CH2-C6H5 (JMV179) and Boc-Tyr(SO3H)-Nle-Gly-DTrp-Nle-Asp-NH-CH2-CH2-C6H5 (JMV167) are antagonists of peripheral cholecystokinin (CCK) receptors in vitro. In the present study, antagonist activity of these peptides was studied on rat pancreatic secretion in vivo, and compared to those of other peptidic molecules and to the non-peptidic antagonists L364718, D-, L-, DL-lorglumide, and proglumide. The decreasing order of antagonist potencies on amylase release in vitro was L364718 greater than JMV179 greater than lorglumide greater than JMV167 greater than proglumide; JMV179 was 25 times less potent than L364718 and 300 times more potent than JMV167. The decreasing order of antagonist potencies on protein output in pancreatic juice in vivo was L364718 greater than JMV167 greater than JMV179 greater than lorglumide greater than proglumide; JMV167 was two times more potent than JMV179 and only 8 times less potent than L364718. Increased potency of JMV167, relative to JMV179 under in vivo conditions, is probably due to the slower rate of catabolism of the phenylethylamide group, relative to the phenylethylester group, since the metabolite issued from hydrolysis of the ester bond was totally inactive. This study shows that it is possible to obtain peptidic CCK antagonists, which are active and potent in vivo, and provides a quantitative measurement of potency changes occurring in vivo for several peptidic and non-peptidic antagonists.     

Cyclic cholecystokinin analogues with high selectivity for central receptors.

Taking as a model the N-terminal folding of the cholecystokinin tyrosine-sulfated octapeptide [CCK-8; Asp-Tyr(SO3H)-Met-Gly-Trp-Met-Asp-Phe-NH2] deduced from conformational studies, two cyclic cholecystokinin (CCK) analogues were synthesized by conventional peptide synthesis: Boc-D-Asp-Tyr(SO3H)-Ahx-D-Lys-Trp-Ahx-Asp-Phe-NH2 [compound I (Ahx, 2-aminohexanoic acid)] and Boc-gamma-D-Glu-Tyr(SO3H)-Ahx-D-Lys-Trp-Ahx-Asp-Phe-NH2 (compound II). The binding characteristics of these peptides were investigated on brain cortex membranes and pancreatic acini of guinea pig. Compounds I and II were competitive inhibitors of [3H]Boc[Ahx28,31]CCK-(27-33) binding to central CCK receptors and showed a high degree of selectivity for these binding sites (compound I: Ki for pancreas/Ki for brain, 179; compound II: Ki for pancreas/Ki for brain, 1979). This high selectivity was associated with a high affinity for central CCK receptors (compound I: Ki, 5.1 nM; compound II: Ki, 0.49 nM). Similar affinities and selectivities were found when 125I Bolton-Hunter-labeled CCK-8 was used as a ligand. Moreover, these compounds were only weakly active in the stimulation of amylase release from guinea pig pancreatic acini (EC50 greater than 10,000 nM) and were unable to induce contractions in the guinea pig ileum (to 10(-6) M). The two cyclic CCK analogues, therefore, appear to be synthetic ligands exhibiting both high affinity and high selectivity for central CCK binding sites. These compounds could help clarify the respective role of central and peripheral receptors for various CCK-8-induced pharmacological effects.     

The anti-CCK effect of glutaramic acid derivatives in anesthetized and conscious rats

The effects of specific gastrin-cholecystokinin (CCK) receptor blockers (proglumide and a new, more potent product of Rotta Research Laboratorium, CR-1392) on pancreatic secretion were studied. Proglumide and CR-1392 caused a rightward and parallel shift, respectively, in the dose-response curve of CCK8 stimulated pancreatic protein secretion in anesthetized rats, demonstrating a competitive-like mechanism of inhibition. The mean PA2 values, demonstrating the 50% inhibitory dose of proglumide and CR-1392 were 3.7 and 5.7, respectively; i.e., CR-1392 proved to be about 100 times more potent than proglumide. In conscious rats, protein output and the volume of pancreatic juice were significantly decreased for about 2 h in response to 150 mg/kg of proglumide or 3 mg/kg of CR-1392 administered s.c. during diversion of pancreatic juice, demonstrating inhibition of endogenous CCK by glutaramic acid derivatives. Indeed, during reintroduction of precollected pancreatic juice into the duodenum, when the release of CCK is known to be almost totally eliminated, pancreatic secretion was not significantly modified by the same doses.     

Characterization of a new diphenylpyrazolidinone cholecystokinin antagonist in vitro isolated rat pancreatic acini

Summary The effects of a newly developed diphenylpyrazolidinone cholecystokinin (CCK) antagonist LY219,057 were examined in the isolated rat pancreatic acini and compared with those of devazepide (previously designated L364,718 or MK-329). LY219,057 caused a concentration-dependent inhibition of 100 pM CCK octapeptide (CCK-8)-stimulated amylase release, with a half-maximal inhibition (ID₅₀) at 287.5±28.4 nM and was 200 times less potent than devazepide (ID₅₀=1.4±0.2 nM). The antagonism was competitive in nature because LY219,057 caused a parallel rightward shift of the dose-response curve for CCK-8-stimulated amylase secretion without altering the maximal increase. LY219,057 significantly inhibited amylase release in response to CCK-8 and cerulein but had no effect on amylase release stimulated by other receptor secretagogs or agent bypassing receptors. LY219,057, whether added at the beginning or 20 min after the CCK-8 stimulation, inhibited amylase release. This compound caused a residual inhibition of the action of CCK-8. Acini preincubated with 1.0 μM LY219,057 for 30 min at 37°C were threefold less sensitive to CCK-8 than the acini preincubated without LY219,057. Thee results indicate that LY219,057 acts as a potent, competitive, and specific CCK receptor antagonist of the action of CCK on the exocrine pancreas.     

Inhibitory effect of CR 1409 (cholecystokinin antagonist) on pancreatic exocrine secretion in rats

New cholecystokinin (CCK) receptor antagonist, CR 1409 (lorglumide), was evaluated for anti-CCK activity on pancreatic exocrine secretion in anesthetized rats in vivo, compared with proglumide. Both CR 1409 in a dose range of 0.04-25 mg/kg-hr and proglumide in a dose range of 30-600 mg/kg-hr given intravenously, showed significant inhibitory effect on pancreatic secretion in terms of juice volume and amylase output stimulated by intravenous CCK-8 (0.06 micrograms/kg-hr), in a dose-related manner. CR 1409 is about 1000 times more potent than proglumide, based on ED 50. Furthermore, intravenous administration of either CR 1409 (5 mg/kg-hr) or proglumide (600 mg/kg-hr) resulted in significant suppression on pancreatic secretion stimulated by intraduodenal casein in a dose of 400 mg/hr. Thus, very potent CCK receptor antagonist, CR 1409, inhibited pancreatic exocrine secretion stimulated by not only exogenous CCK, but also intraduodenal casein in rats.     

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.     

Ethanol Fails to Modify [3H]GR65630 Binding to 5-HT3 Receptors in NCB-20 Cells and in Rat Cerebral Membranes

Low concentrations of ethanol have been found to enhance the electrophysiologic effect of serotonin (5-HT) acting at 5-HT3 receptors on NCB-20 cells. To determine whether this action of ethanol reflects a change in the agonist-receptor interaction, the effect of ethanol (100 mM) on agonist and antagonist binding to 5-HT3 receptor was studied in vitro in membrane from NCB-20 cells and from cortex plus hippocampus of rat. The antagonist [3H]GR65630 was used to label 5-HT3 recognition sites. Ethanol did not change the characteristics of saturable [3H]GR65630 binding in either membrane preparation. In competition studies, the agonists 5-HT and 2-methyl-5-HT completely inhibited the binding of [3H]GR65630 to NCB-20 cell membranes, while in brain membranes the maximum displacement of specific [3H]GR65630 binding by 5-HT was approximately 30%. Ethanol decreased the affinity of the receptor for 2-methyl-5-HT, but not to 5-HT in NCB-20 cells, and had no effect on agonist binding in brain membranes. The results indicate that enhancement of 5-HT responses at 5-HT3 receptors by ethanol is not a result of changes in the equilibrium binding characteristics of the agonist.