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.     

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.     

Proglumide analogues CR 1409 and CR 1392 inhibit cholecystokinin-stimulated insulin release more potently than exocrine secretion from the isolated perfused rat pancreas

The effects of proglumide-related cholecystokinin (CCK) receptor antagonists CR 1409 and CR 1392 on CCK-octapeptide (CCK-8)-stimulated immunoreactive insulin (IRI) release and exocrine secretion were examined simultaneously in the isolated perfused rat pancreas. The CR 1409, at concentrations of 10-100 nM, significantly inhibited CCK-8 (100 pM) stimulation on IRI release but failed to inhibit the stimulatory effect of CCK-8 on both pancreatic juice flow and protein secretion. Increasing concentrations of CR 1409 inhibited both CCK-8-stimulated IRI release and exocrine secretion. Half-maximal inhibition was observed with approximately 2 nM for IRI release and 1 microM for protein secretion. When a higher dose (1 nM) of CCK-8 was used, the inhibitory effect of 10 nM CR 1409 on CCK-8-stimulated IRI release was abolished, whereas 10 microM CR 1409 retained significant inhibitory effect. Furthermore, 1 microM carbachol-induced IRI release was not altered by the addition of 10 microM CR 1409. The CR 1392 also had an inhibitory effect on both CCK-8-stimulated IRI release and exocrine secretion. The concentration of CR 1392 that caused half-maximal inhibition of CCK-8-stimulated IRI release was 300 times lower than that of exocrine secretion. In addition, 1 microM carbachol-stimulated IRI release was not altered by 100 microM CR 1392. Thus, the inhibitory effects of CR 1409 and CR 1392 on IRI release were mediated through the interaction at the CCK receptor and were more potent than those on juice and protein secretion. This study suggests, therefore, that CCK receptors on B cells might be different from those on acinar cells in terms of their relative affinities for antagonists.     

Effect of pancreastatin on insulin secretion and the exocrine pancreas in rats]

Pancreastatin, a 49-amino-acid C-terminal amidated peptide, was isolated from porcine pancreas in 1986. It has been reported to inhibit insulin release and exocrine pancreatic secretion, but both these effects have been disputed. In the isolated perfused rat pancreas we therefore studied the effect of pancreastatin on insulin and exocrine pancreatic secretion. Neither basal exocrine pancreatic secretion, nor exocrine secretion stimulated by CCK-8, bombesin or secretin were affected by pancreastatin. 20 or 200 pM pancreastatin, however, significantly inhibited stimulated insulin release. We conclude that pancreastatin seems to be yet another inhibitory peptide, which--for unknown reasons--inhibits insulin release both in vivo and in vitro, but exocrine pancreatic secretion only in vivo.     

Inhibitory effects of pirenzepine on cholecystokinin and secretin stimulation on exocrine and endocrine rat pancreas

Effects of pirenzepine, a newly developed anticholinergic drug, on exocrine and endocrine pancreatic functions stimulated by cholecystokinin octapeptide and secretin were studied in both isolated pancreatic acini and the isolated perfused pancreas of rats. In the isolated acini, pirenzepine did not have any significant effect on cholecystokinin-inducec amylase release but caused an inhibition of amylase secretion initiated by secretin and shifted the dose-response curve for amylase secretion to the right. In the isolated perfused pancreas stimulated with 100 pM cholecystokinin octapeptide, addition of 10 M pirenzepine before as well as after 20 min of perfusion significantly inhibited pancreatic juice flow but not enzyme output. In contrast, pirenzepine caused an inhibition of secretin-stimulated enzyme secretion, but not pancreatic juice flow. The stimulatory effect of both cholecystokinin octapeptide and secretin on insulin secretion was also inhibited by pirenzepine. The present data indicate that pirenzepine may have an influence on pancreatic exocrine and endocrine function by inhibiting endogenous cholinergic activity of the pancreas when a large dose is given.     

Stimulatory and inhibitory effects of galanin on exocrine and endocrine rat pancreas.

The influence of the neuropeptide galanin, present in intrapancreatic nerve endings, on the endocrine pancreas is well known. The most potent effect of galanin is inhibition of insulin release. Little is known of its effect on the exocrine pancreas. Whether galanin plays a role in the regulation of exocrine pancreatic secretion and whether this effect is mediated directly on acinar cells or indirectly via the influence on insulin secretion is not clear. In the present study, we investigated these questions using the model of the isolated and arterially perfused rat pancreas with intact exocrine and endocrine secretion. In the presence of 15.8 mM glucose in a modified Krebs-Ringer buffer and during half-maximal stimulation of enzyme secretion with 100 pmol/ml cholecystokinin octapeptide (CCK-8), a dose-response study of 0.001-100 pmol/ml porcine galanin was performed. At concentrations of 0.001 and 0.01 pmol/ml, porcine galanin significantly stimulated insulin release (p < 0.05 and < 0.01, respectively) and also significantly enhanced CCK-8-stimulated amylase secretion (p < 0.05). Doses of 0.1 and 1 pmol/ml galanin resulted in a nonsignificant inhibition of insulin release, while 10 and 100 pmol/ml strongly inhibited the endocrine response (p < 0.001). However, concentration levels of 1-100 pmol/ml galanin did not affect CCK-8-stimulated amylase secretion. Rat galanin, tested at 0.01 and 10 pmol/ml, showed no significant difference from the effects of porcine galanin at the equipotent concentrations. It is concluded that the effect of galanin on exocrine pancreas, like the effect on endocrine functions, tends to be a direct one and that it could exert a modulatory influence on the level of neuronal transmission.     

Comparative inhibitory effects of pirenzepine and atropine on cholinergic stimulation of exocrine and endocrine rat pancreas

The effects of pirenzepine on carbamylcholine-stimulated exocrine and endocrine pancreatic functions were compared with those of atropine in both the isolated pancreatic acini and the isolated perfused pancreas of rats. In the isolated acini pirenzepine and atropine produced a concentration-dependent inhibition of amylase secretion initiated by carbamylcholine. This inhibition resulted in a rightward shift in the dose-response curve for carbamylcholine-stimulated amylase secretion without altering the maximal increase in amylase secretion. Pirenzepine was, however, approximately 300 times less potent than atropine in inhibiting the stimulated amylase release. A similar difference in potency was observed with respect to carbamylcholine stimulation of pancreatic juice, amylase, and insulin release from the isolated perfused pancreas. The maximal inhibitory concentration of pirenzepine on a maximal effective concentration of pirenzepine on a maximal effective concentration of carbamylcholine for stimulating pancreatic exocrine secretion was 10 microM, whereas that of atropine was 30 nM. The present data define the pirenzepine receptors in the exocrine and endocrine pancreas as low-affinity-type receptors.     

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.     

Effects of cholecystokinin (CCK)-4, nonsulfated CCK-8, and sulfated CCK-8 on pancreatic somatostatin, insulin, and glucagon secretion in the dog: studies in vitro

The effect of cholecystokinin (CCK)-4, nonsulfated CCK-8 (CCK-8), and sulfated CCK-8 (CCK-8-S) on endocrine pancreas function was investigated in the isolated perfused dog pancreas in the presence of 5.5 mM glucose. CCK-4 and CCK-8 at concentrations of 1, 10, and 100 nM dose dependently stimulated pancreatic SRIF, insulin, and glucagon release. The insulinotropic and glucagonotropic potency of CCK-8 was significantly greater than that of CCK-4, whereas the effect on SRIF secretion was similar. Furthermore, CCK-8-S and CCK-8 at concentrations of 0.1, 1, and 10 nM caused a dose-dependent increase in pancreatic A, B, and D cell secretion. The CCK-8-S was a more potent insulinotropic agent than CCK-8. It is suggested that these principal molecular CCK forms qualify for a physiological modulatory role in the endocrine pancreas.     

Endogenous somatostatin inhibits interaction of insulin and cholecystokinin on exocrine secretion of isolated, perfused rat pancreas

INTRODUCTION: Although somatostatin inhibits pancreatic exocrine secretion, the inhibitory mechanism of endogenous somatostatin is not clearly understood. AIM: To investigate the effect of endogenous somatostatin on the interaction between endogenous insulin and exogenous cholecystokinin (CCK) in exocrine secretion of the totally isolated, perfused rat pancreas. METHODOLOGY: Endogenous releases of somatostatin and insulin were induced by 18 mM glucose. Streptozotocin (75 mg/kg) or cysteamine (300 mg/kg) was injected into rats 24 hours before the experiment to deplete insulin or somatostatin in the pancreas. RESULTS: Glucose (18 mM) enhanced CCK (10 pM)-stimulated secretions of fluid and amylase in the normal pancreas, which was further elevated by a somatostatin antagonist. Exogenous insulin (100 nM) also enhanced CCK-stimulated secretions in the streptozotocin-treated pancreas, which was also markedly increased by the somatostatin antagonist. The glucose (18 mM)-enhanced CCK-stimulated secretions were much higher in the cysteamine-treated pancreas than in the normal pancreas, which was dose-dependently reduced by exogenous somatostatin (30, 100 pM). However, endogenous or exogenous somatostatin did not modify the pancreatic responses to CCK alone. CONCLUSION: Endogenous somatostatin inhibits the interaction of endogenous insulin and CCK on pancreatic exocrine secretion in the rat rather than reducing the action of CCK alone or endogenous release of insulin.     

Effect of sulfation of CCK-8 on its stimulation of the endocrine and exocrine secretion from the isolated perfused porcine pancreas

The secretory effect of sulfated and nonsulfated cholecystokinin octapeptide (CCK-8) was studied on the isolated perfused porcine pancreas. Both CCKs in concentrations from 10(-11) to 10(-8) mol/l in the presence of glucose (7.5, 5.0 or 3.5 mmol/l) were without effect on insulin and glucagon release. The exocrine secretion was stimulated by both CCKs in a dose-dependent manner, but sulfated CCK-8 was considerably more potent. The study shows that CCK-8, a major constituent of endogenous CCK, does not contribute to the incretin mechanism, irrespective of degree of sulfation. In contrast, CCK-8 is a potent stimulator of exocrine pancreatic secretion. For this effect sulfation is crucial.     

Involvement of endogenous prostaglandins in pancreatic endocrine and exocrine secretion in dog pancreas

The involvement of endogenous prostaglandins (PGs) in pancreatic endocrine and exocrine secretion was investigated, using the isolated and perfused dog pancreas. Spontaneous production of both PGE2 and 6-keto-PGF1 alpha was recorded in venous effluent. Prostaglandin production increased following stimulation with both 10 x 10(-11) and 20 x 10(-11) mol of CCK-8, but was not affected by a 5 x 10(-11) mol infusion. Insulin, glucagon, and amylase release was stimulated by 10 x 10(-11) mol of CCK-8. Indomethacin pretreatment with 10 mg/kg totally abolished endogenous PG production, but failed to suppress an insulin and glucagon response. On the other hand, an amylase response was accelerated by indomethacin pretreatment. Although low dose CCK-8 failed to stimulate endogenous prostaglandin production, a brisk exocrine secretion was not suppressed by indomethacin pretreatment. From the above results, we conclude that endogenous PGs do not appear to play an important role in pancreatic endocrine and exocrine secretion, but might have a cytoprotective effect on the pancreatic acinar cells damaged by CCK-8.     

Somatostatin analog, SMS 201-995, inhibits pancreatic exocrine secretion and release of secretin and cholecystokinin in rats.

We studied the effect of a synthetic octapeptide somatostatin analog, SMS 201-995 (sandostatin), on pancreatic exocrine secretion and on plasma secretin and cholecystokinin (CCK) levels in vivo in anesthetized rats. The exocrine pancreas was stimulated by either intravenous infusion of both secretin (0.06 CU/kg/h) and cholecystokinin octapeptide (CCK-8) (0.03 micrograms/kg/h) or intraduodenal infusion of oleic acid (pH 6.5) in a dose of 0.25 mmol/h. Intravenous administration of SMS 201-995 in three different doses of 100, 200, and 400 ng/kg/h resulted in dose-related inhibition of pancreatic secretion in terms of volume, bicarbonate, and amylase stimulated by exogenous secretin and CCK. Intraduodenal oleic acid stimulated pancreatic secretion, including volume, bicarbonate, and amylase, and this was accompanied by a significant elevation in the plasma concentrations of secretin and CCK. Intravenous administration of SMS 201-995 in the three different doses described above caused dose-dependent suppression of the increase in pancreatic exocrine secretion as well as the plasma concentration of secretin and CCK induced by intraduodenal infusion of oleic acid. It is concluded that SMS 201-995 inhibits pancreatic exocrine secretion and the release of endogenous hormones, such as secretin and CCK, in rats.     

Development and regulation of porcine pancreatic function

Summary A surgical and experimental procedure was developed to enable the collection of pure and inactivated pancreatic juice during the growth of the pig. Studies have shown that, during the suckling period, both the basal and the secretory responses to suckling are low, if present at all. After weaning, basal levels of the total exocrine secretion, total protein, amylase, and trypsin, respectively, increase slightly, while the postprandial levels of total protein, amylase, trypsin, lipase, colipase, and carboxylester lipase, respectively, increase markedly. The pancreatic juice enzyme composition changes qualitatively and the antibacterial activity of the pancreatic juice also significantly increases. Piglet age appeared to be of minor importance, since weaning at either 4 or 6 wk of age gave the same results. Secretin and CCK administered together in supraphysiological doses only significantly affect exocrine function from 3–4 wk of age. However, CCK may also affect the exocrine pancreas indirectly via reflexes initiated intraduodenally. Milk consumption in the suckling pig leads to a postprandial increase in glucose levels but not insulin. Milk, appears to be able to regulate the exocrine pancreas to produce only the amount and type of enzymes required for digestion. Thus, milk components or digestive products may affect pancreas function regulation. Studies show that enterostatin, the procolipase activation peptide, may inhibit pancreatic secretion mediated indirectly through the GI tract. Pancreastatin, an endocrine peptide, inhibits both insulin secretion and protein and trypsin secretion to pancreatic juice. In hypoinsulinemic (alloxan + streptozotocin diabetes) pigs (15–20 kg), no postprandial pancreatic juice response is seen, although CCK 33 + secretin can stimulate pancreatic secretion. Hypoinsulinemic pigs have a reduced capacity for glucose tissue utilization, suggesting that tissue metabolism and exocrine pancreas secretion are related.     

Effect of pancreastatin on pancreatic endocrine and exocrine secretion

Pancreastatin is a novel peptide that was recently purified from extracts of the porcine pancreas. The present study shows that pancreastatin (10(-9)-10(-8) M) can stimulate release of insulin from both the isolated perfused rat pancreas and from cultured rat islet cells in the presence of a low, non-insulinotropic concentration of glucose (4.2 mM). Pancreastatin (10(-9) M) can also inhibit release of insulin stimulated by a high concentration of glucose (16.7 mM). Pancreastatin, at 10(-8) M, can enhance glucose (8.3 mM) induced release of insulin in the static islet cell incubation. In addition, pancreastatin (10(-9)-10(-8) M) can inhibit, in a dose-dependent fashion, cholecystokinin (CCK)-8 stimulated release of amylase from dispersed guinea pig pancreatic acini. Pancreastatin alone, however, did not affect basal release of amylase. Our study shows that pancreastatin can exert a direct effect on both pancreatic endocrine and exocrine secretion.     

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.     

Inhibition of cholecystokinin-stimulated pancreaticobiliary output in man by the cholecystokinin receptor antagonist MK-329.

MK-329 (formerly L-364,718) is a new nonpeptide antagonist for the peripheral (type-A) cholecystokinin (CCK) receptor, which has proved effective in blocking the actions of both exogenous and endogenous CCK in several species. To evaluate the effect of MK-329 on CCK-stimulated pancreaticobiliary output in man, six normal subjects received 10 mg MK-329 or placebo orally in a randomized, crossover fashion, before a background intravenous infusion of secretin (5 pmol/kg/h) and two doses of CCK-8 (approximately 15 and 40 pmol/kg/h, each for 1 h). Gastric and duodenal juice were aspirated separately via two double-lumen tubes, with 51Cr-ethylene-diaminetetraacetic acid as a duodenal marker. After placebo treatment the background infusion of secretin produced maximum plasma concentrations of secretin similar to postprandial values, averaging about 5 pM. After placebo treatment the low dose CCK-8 infusion (15 pmol/kg/h) increased circulating CCK concentrations from basal levels of 1.8 +/- 0.2 pM to levels similar to those observed postprandially, averaging 9.2 +/- 1.3 pM, and the high dose of CCK-8 (40 pmol/kg/h) induced supraphysiologic levels of CCK, averaging 23.4 +/- 3.2 pM. Plasma concentrations of secretin and CCK were not significantly different during MK-329 treatment. As expected, infusion of CCK-8 at both doses stimulated pancreatic exocrine secretion and gallbladder contraction in placebo controls, as indicated by increases in the output of trypsin, amylase, bicarbonate, and bilirubin. Whereas MK-329 did not significantly reduce basal pancreatic secretion, the integrated incremental output of trypsin, amylase, and bicarbonate in response to stimulation with the low (physiologic) CCK dose was inhibited by 74% (p less than 0.01), 89% (NS), and 75% (p less than 0.05), respectively. Basal bilirubin output was virtually abolished after treatment with MK-329, and the response to the low dose of CCK was reduced by 98% (p less than 0.01), indicating almost complete inhibition of gallbladder contraction at physiologic circulating concentrations of CCK. It is concluded that MK-329 is an orally active antagonist of CCK-stimulated pancreaticobiliary output in man and could thus be utilized to explore the physiologic regulation of the exocrine pancreas and gallbladder by CCK.     

Ex-vivo isolated perfusion of the pancreas in the Syrian golden hamster

The technique of ex-vivo isolated pancreatic perfusion has been a valuable method for investigation of the physiology of the exocrine and endocrine pancreas. We have adapted the technique of isolated pancreatic perfusion for use in the Syrian golden hamster, an animal used widely in studies of pancreatic carcinogenesis. The technique involves surgical harvest of the pancreas with its aortic and portal venous blood supply intact and perfusion of the pancreas with a modified Krebs buffer at 37 degrees C. Physiological function of the perfused pancreas system was examined in 27 Syrian hamsters. In tests of endocrine function, the perfused pancreas responded by increasing insulin secretion within 1 min of elevating perfusate glucose concentration, and also secreted insulin promptly in response to 10 mM arginine. In exocrine studies, the flow of pancreatic juice was stimulated by the addition of 0.8 X 10(-9) M secretin to the perfusate, and amylase output was significantly increased by the addition of 0.2 X 10(-9) M cholecystokinin (CCK-8). The ex-vivo isolated perfused pancreas in the hamster thus appears to respond appropriately to physiological stimuli and is a valuable additional tool for studies of the hamster pancreas.     

Inhibition of Cholecystokinin-Stimulated Pancreaticobiliary Output in Man by the Cholecystokinin Receptor Antagonist MK-329

MK-329 (formerly L-364,718) is a new nonpeptide antagonist for the peripheral (type-A) Cholecystokinin (CCK) receptor, which has proved effective in blocking the actions of both exogenous and endogenous CCK in several species. To evaluate the effect of MK-329 on CCK-stimulated pancreaticobiliary output in man, six normal subjects received 10 mg MK-329 or placebo orally in a randomized, crossover fashion, before a background intravenous infusion of secretin (5 pmol/kg/h) and two doses of CCK-8 (approximately 15 and 40 pmol/kg/h, each for 1 h). Gastric and duodenal juice were aspirated separately via two double-lumen tubes, with ⁵¹Cr-ethylenediaminetetraacetic acid as a duodenal marker. After placebo treatment the background infusion of secretin produced maximum plasma concentrations of secretin similar to postprandial values, averaging about 5pM. After placebo treatment the low dose CCK-8 infusion (15 pmol/kg/h) increased circulating CCK concentrations from basal levels of 1.8 ± 0.2 pM to levels similar to those observed postprandially, averaging 9.2 ± 1.3pM, and the high dose of CCK-8 (40 pmol/kg/h) induced supraphysiologic levels of CCK, averaging 23.4 ± 3.2 pM. Plasma concentrations of secretin and CCK were not significantly different during MK-329 treatment. As expected, infusion of CCK-8 at both doses stimulated pancreatic exocrine secretion and gallbladder contraction in placebo controls, as indicated by increases in the output of trypsin, amylase, bicarbonate, and bilirubin. Whereas MK-329 did not significantly reduce basal pancreatic secretion, the integrated incremental output of trypsin, amylase, and bicarbonate in response to stimulation with the low (physiologic) CCK dose was inhibited by 74% (p < 0.01), 89% (NS), and 75% (p < 0.05), respectively. Basal bilirubin output was virtually abolished after treatment with MK-329, and the response to the low dose of CCK was reduced by 98% (p < 0.01), indicating almost complete inhibition of gallbladder contraction at physiologic circulating concentrations of CCK. It is concluded that MK-329 is an orally active antagonist of CCK-stimulated pancreaticobiliary output in man and could thus be utilized to explore the physiologic regulation of the exocrine pancreas and gallbladder by CCK.