Role of Prostaglandins in Regulation of Pancreatic Enzyme Secretion by Various Diets

We have demonstrated by the use of isolated rat pancreatic acini that exogenous prostaglandins of the E type inhibit secretagogue-stimulated amylase secretion. We here studied whether the pancreas is a source of prostaglandin synthesis and whether prostaglandins mediate regulation of pancreatic enzyme secretion by various diets. Prostaglandin E₂ was measured by enzyme immunoassay in pancreatic acini from either normal animals or after 10 days of feeding with different diets. Acini were prepared by collagenase digestion. Amylase secretion was measured after stimulation with cholecystokinin in the presence or absence of indomethacin, an inhibitor of prostaglandin synthesis. Prostaglandin E₂ concentration in pancreatic acini was comparable to other organs such as kidney and liver. Feeding a diet enriched in proteins caused an increase of cholecystokinin-stimulated maximal amylase secretion and a decrease of prostaglandin E₂ concentration. Incubation of acini with indomethacin caused a decrease in prostaglandin E₂ concentration and an increase in cholecystokinin stimulated amylase secretion. We conclude that regulation of pancreatic enzyme secretion by diets may be mediated by prostaglandins.     

Pancreatic stellate cells produce acetylcholine and may play a role in pancreatic exocrine secretion

The pancreatic secretagogue cholecystokinin (CCK) is widely thought to stimulate enzyme secretion by acinar cells indirectly via activation of the vagus nerve. We postulate an alternative pathway for CCK-induced pancreatic secretion. We hypothesize that neurally related pancreatic stellate cells (PSCs; located in close proximity to the basolateral aspect of acinar cells) play a regulatory role in pancreatic secretion by serving as an intermediate target for CCK and secreting the neurotransmitter acetylcholine (ACh), which, in turn, stimulates acinar enzyme secretion. To determine whether PSCs (i) exhibit CCK-dependent ACh secretion and (ii) influence acinar enzyme secretion, primary cultures of human and rat PSCs were used. Immunoblotting and/or immunofluorescence was used to detect choline acetyltransferase (ACh synthesizing enzyme), vesicular ACh transporter (VAChT), synaptophysin, and CCK receptors 1 and 2. Synaptic-like vesicles in PSCs were identified by EM. ACh secretion by PSCs exposed to 20 pM CCK was measured by LC-MS/MS. Amylase secretion by acini [pretreated with and without the muscarinic receptor antagonist atropine (10 μM) and cocultured with PSCs] was measured by colorimetry. PSCs express ACh synthesizing enzyme, VAChT, synaptophysin, and CCK receptors; exhibit CCK-dependent ACh secretion; and stimulate amylase secretion by acini, which is blocked by atropine. In conclusion, PSCs express the essential elements for ACh synthesis and secretion. CCK stimulates ACh secretion by PSCs, which, in turn, induces amylase secretion by acini. Therefore, PSCs may represent a previously unrecognized intrapancreatic pathway regulating CCK-induced pancreatic exocrine secretion.     

Effect of buprenorphine on pancreatic enzyme synthesis and secretion in normal rats and rats with acute edematous pancreatitis

Pancreatic enzyme secretion is inhibited during acute pancreatitis, resulting in an increase in acinar zymogen content. Since the premature activation of zymogens has been assigned a central role in the pathogenesis of acute pancreatitis, minimizing the amount of stored zymogens might lead to less severe acute pancreatitis. Inhibition of enzyme synthesis or stimulation of enzyme secretion would result in reduction of zymogen stores. Opiates have a varying effect on pancreatic secretion, depending on the dosage, site of administration, and presence of pancreatic stimulants. The effect of opiates and acute pancreatitis on individual pancreatic enzyme synthesis is unknown. The following study was undertaken in order to examine the effects of an opiate on pancreatic enzyme secretion and synthesis during experimental acute pancreatitis. Four groups of rats were studied. Group I received cerulein (25 µg/kg); group II received an opiate, buprenorphine (BPN, 0.5 mg/kg); and group III received cerulein and BPN. Drugs were dissolved in gelatin/saline and injected subcutaneously. A control group (group IV) received only gelatin/saline. Rats were sacrificed 4 hr after injection, and pancreatic mass was measured. Pancreatic acini were prepared and assayed for amylase and DNA content. Amylase, trypsinogen, chymotrypsinogen and lipase synthesis, and amylase secretion were measured for 2 hr. Results showed that, compared to controls, acini of rats with AP had increased amylase content, a finding consistent with decreasedin vivo amylase secretion. Total protein and individual enzyme synthesis rates were significantly lower in the acini of the rats with AP than in those of the controls. Negative feedback inhibition of enzyme synthesis due to the increased stores of intracellular enzymes may account for these findings. BPN reduced pancreatic edema in rats with acute pancreatitis (AP). Acinar amylase content of rats with AP treated with BPN was significantly lower than in acini of rats with AP. As amylase secretion was lower in the AP + BPN rats, the reduced acinar amylase content was probably solely due to the reduction in enzyme synthesis observed in the AP + BPN rats. The results suggest that BPN may have a moderating effect on the development of AP.This study was supported by a research grant from the South African Medical Research Council.     

Influence of adrenalectomy on pancreatic enzyme secretion

Both adrenalectomy and chemically induced diabetes mellitus cause a marked decrease of pancreatic amylase synthesis in rats. Diabetes is further associated with alterations of cholecystokinin (CCK)-stimulated enzyme secretion. Using isolated pancreatic acini prepared from adrenalectomized male rats, we investigated the effects of adrenalectomy on pancreatic enzyme secretion. CCK8-stimulated amylase secretion showed a typical biphasic dose-response curve in acini from both adrenalectomized and sham-operated animals with similar basal secretions, similar sensitivities to various CCK8 concentrations, but a statistically significant elevation of maximal amylase secretion after adrenalectomy. Receptor-binding studies with 125I-BH-CCK8 revealed an increase of binding to the high-affinity part of the CCK receptor in adrenalectomized rats. While carbachol-stimulated secretion showed no changes in maximal secretion rates, it did show a decrease in sensitivity in adrenalectomized animals with a statistically significant shift to the right of the dose-response curves. Competitive inhibition curves with 3H-N-methylscopolamine and carbachol as the competitive receptor agonist showed no differences in receptor binding between controls and adrenalectomized rats. We propose that complex alterations in hormone/neurotransmitter-stimulated pancreatic enzyme secretion are found in glucocorticoid depletion, explainable via a postreceptor defect in carbachol-stimulated secretion. The functional and binding data with regard to CCK are more difficult to explain.     

Duodenal juice total protein and pancreatic enzyme synthesis, turnover, and secretion in patients after acute pancreatitis.

It is controversial whether acute pancreatitis has longterm effects on pancreatic function. Pancreatic enzyme synthesis, turnover, and secretion were measured in 10 patients in clinical remission who had had one or more (one to six) attacks of acute alcoholic pancreatitis. The studies were done between two and 29 months after the most recent attack. A control group included five patients with no evidence of pancreatic disease. A four hour primed/continuous intravenous infusion of [14C]L-leucine tracer was given with secretin (2 U/kg/h) and cholecystokinin (0.5 U/kg/h) and secreted duodenal juice aspirated. Amylase and trypsin were extracted from duodenal juice by affinity chromatography, permitting measurement of the rate of isotope incorporation into total protein, amylase, and trypsin. The results showed non-parallel changes in enzyme synthesis and turnover with decreases in total enzyme protein and amylase synthesis and turnover but preservation of trypsin synthesis and turnover. The low turnover rates may be ascribed to continuing pancreatic cell malfunction after recovery from acute alcoholic pancreatitis and suggest that the decreased amylase secretion rates are partly a consequence of impaired amylase synthesis and not simply because of loss of pancreatic tissue.     

Differential activation of p42ERK2 and p125FAK by cholecystokinin and bombesin in the secretion and proliferation of the pancreatic amphicrine cell line AR42J

Background: AR42J rat pancreatic acinar carcinoma cells have retained the potential to secrete digestive enzymes in addition to their ability to proliferate upon stimulation with regulatory peptides. We investigated the involvement of p42^ERK2 and p125^FAK (extracellular signal-regulated protein kinase and focal adhesion protein kinase, respectively) by cholecystokinin and bombesin stimulation with regard to secretion and mitogenesis. Methods: The p42^ERK2 activity was measured by kinase assay and the activation of p125^FAK by antiphosphotyrosine Western blot analysis of p125^FAK immunoprecipitates. The expression of both kinases was determined by Western blot analysis, the amylase secretion by colorimetry, and the DNA synthesis by [3H]thymidine incorporation. Results: p42^ERK2 and p125^FAK were activated by cholecystokinin and bombesin with maximum stimulation at concentrations above 10 nM. Bombesin was a weaker activator of p42^ERK2 and p125^FAK, causing only half of the kinase activity induced by stimulation with cholecystoki nin. PD98059 was shown to inhibit p42^ERK2, while tyrphostin 25 blocked p125^FAK tyrosine phosphorylation. Preincubation of AR42J cells with PD98059 or tyrphostin 25 was without influence on cholecystokinin- or bombe-sin-stimulated secretion in normal or 72-hour dexameth-asone-pretreated cells. In contrast, inhibition of both protein kinases leads to reduced cholecystokinin-stimulated [3H]thymidine incorporation rates. Conclusions: Cholecystokinin induced proliferation of AR42J cells by strong activation of p42^ERK2 and p125^FAK. Bombesin failed to stimulate DNA synthesis, probably due to its reduced potency to stimulate these kinases. Both protein kinases are not implicated in the process of enzyme secretion.     

Chronic oral administration of synthetic trypsin inhibitor camostate reduces amylase release from isolated rat pancreatic acini

Summary In the present study, we examined stimulus-secretion coupling in pancreatic acini prepared from rats given synthetic protease inhibitor camostate at a dose of 200 mg/kg body wt by an orogastric tube once a day for 10 d. Camostate treatment significantly increased pancreatic weight, protein, DNA, and enzyme contents. In acini prepared from the camostate-treated rats, responsiveness to both CCK-8 and carbamylcholine was greatly decreased with no shift in the dose-response curves compared to control acini prepared from saline-treated rats. There were no major changes in the affinity for both high- and low-affinity sites of CCK receptors, but there was a significant reduction in the capacity of low-affinity site based on acinar protein. Responsiveness to secretin in the camostate-treated rat acini was also significantly reduced compared with that in the controls. However, amylase release from the camostate-treated rat acini in response to an increase in intracellular calcium levels induced by the calcium ionophores A23187 or to an increase in intracellular cyclic 3′,5′-monophosphate (cyclic AMP) levels caused by 8 bromo cyclic AMP was not significantly different from the control rat acini, suggesting that both Ca²⁺-dependent tyrosine kinase and nucleotide-activated kinases are not impaired. On the other hand, the responsiveness to phorbol ester TPA, which stimulates amylase secretion via a calcium-independent cascade by activating protein kinase C directly, was reduced in the camostate-treated rat acini compared with the controls. These results suggest the possibilities that the reduced amylase secretion in the camostate-treated rats is owing to alterations in both the transmembrane signal transduction and the phosphorylation of regulatory proteins by the Ca²⁺-independent, protein kinase C-dependent mechanisms.     

Effect of intrinsic CCK and CCK antagonist on pancreatic growth and pancreatic enzyme secretion in pancreaticobiliary diversion rats

When pancreaticobiliary diversion (PBD) surgery was performed in rats, plasma CCK level increased, the pancreas grew mainly by proliferation, and pancreatic trypsinogen showed a remarkable increase, although amylase and lipase synthesis were somewhat decreased. The sensitivity of amylase release against CCK-8 in the pancreatic acini decreased when plasma CCK level was high. These changes in pancreatic growth and pancreatic enzyme secretion caused by PBD were completely inhibited by the CCK-receptor antagonist loxiglumide. From these results, intrinsic CCK was considered to play an important role in both pancreatic enzyme synthesis and proliferation     

Impaired pancreatic exocrine function in rats with carbon tetrachloride-induced liver cirrhosis

Summary Background Substantial numbers of studies have revealed the close correlation between chronic pancreatitis and cirrhosis in human. However, the situation with regard to pancreatic enzyme secretion is less clear. Aim The aim of the study was to investigate pancreatic exocrine function in rat with carbon tetrachloride-induced liver cirrhosis in rats. Methods Pancreatic exocrine function and morphology in Sprague-Dawley rats with carbon tetrachloride-induced liver cirrhosis were investigated. Pancreatic exocrine functions stimulated by cholecystokinin-8 and other secretagogs were assessed in isolated pancratic acini, and in vivo and morphological changes were studied by routine were assessed in isolated pancreatic acini, and in vivo and morphological changes were studied by routine histological examination and electron microscopy. Results The basal and cholecystokinin-8-stimulated amylase releases from acini and acinar amylase content were significantly lower in the cirrhotic rats than the control. None of the secretagogs induced the some amount of amylase release in cirrhotic as in control rats. Volume of the pancreatic juice and outputs of amylase and protein were significantly decreased under basal and cholecystokinin-8-stimulated conditions in vivo. Electron microscopy revealed most of the rough-surfaced endoplasmic reticulum accompanying less numbers of ribosomes to be dilated and some mitochondria to be swollen in cirrhotic rats. Conclusion Pancreatic exocrine functions are decreased in cirrhotic rats owing to alterations at the electron microscopic levels, reflecting an impaired acinar intracellular messenger system.     

Influence of exogenous application of pancreatic extracts on endogenous pancreatic enzyme secretion.

The existence of negative feedback inhibition of human pancreatic enzyme secretion by proteases is controversially discussed. We have recently demonstrated that jejunal application of porcine pancreatic extracts, in a dose commonly used to treat digestive insufficiency, stimulated rather than inhibited, human pancreatic enzyme secretion. We have now studied the influence of duodenal application of high concentrations of either pure trypsin or porcine pancreatic extracts with trypsin-equivalent activity, on human pancreatic enzyme secretion. Twenty-three male volunteers were intubated with a gastric tube and a two-lumen jejunal tube to collect secretions separately via the first and third tubes and to perfuse either pure trypsin or porcine pancreatic extracts distal to the pylorus via the second tube. PEG-4.000 was continuously perfused via the second tube to correct for losses of volume. Volunteers received PEG alone during the first hour, phenylalanine during the second, PEG alone again during the third, and either phenylalanine together with trypsin or porcine pancreatic extracts during the fourth h. Activities of lipase, amylase, and chymotrypsin were measured in 15-min fractions. In addition, human lipase secretion was measured with an enzyme immunoassay, which does not crossreact with porcine lipase. Plasma cholecystokinin (CCK) was measured using a sensitive bioassay, which utilizes amylase release by isolated rat pancreatic acini. Perfusion of the duodenum with phenylalanine caused a statistically significant stimulation of enzyme secretion. This stimulation could be inhibited by high concentrations of pure trypsin. In contrast, application of porcine pancreatic extracts, which contained the equivalent activity of trypsin, caused further increases of lipase secretion when compared to phenylalanine alone.(ABSTRACT TRUNCATED AT 250 WORDS)     

Pancreatic and bile duct obstruction exacerbates rat caerulein-induced pancreatitis: a new experimental model of acute hemorrhagic pancreatitis

Background Pancreatic duct obstruction induces edematous but not hemorrhagic pancreatitis even when combined with maximal secretory stimulation. The aim of the present study was to test the hypothesis that pancreatic and bile duct obstruction exacerbates edematous pancreatitis induced by supramaximal secretory stimulation by caerulein. Methods In in vivo studies using rats, biliopancreatic duct ligation was combined with supramaximal stimulation of caerulein, and pancreatic histology, serum amylase level, pancreatic edema, and intrapancreatic trypsin activation were evaluated. In in vitro studies, the pancreatic acini were isolated from the rats with biliopancreatic duct ligation, and amylase secretion, intracellular trypsin activation, and acinar cell fragility were evaluated. Results Biliopancreatic duct ligation exacerbated caerulein-induced pancreatitis from edematous to hemorrhagic only when the obstruction preceded caerulein administration. The amylase secretion from the acini was inhibited, and intracellular trypsin activation and the acinar cell fragility on the supramaximal stimulation with cholecystokinin in vitro were enhanced by the preceding in vivo biliopancreatic duct obstruction. Conclusions Preceding biliopancreatic duct obstruction exacerbates caerulein-induced pancreatitis. Enhancement of intracellular trypsin activation is possibly involved in this mechanism.     

Modulation of pancreatic exocrine function in rodents by treatment with pancreatic polypeptide.

The in vivo and in vitro treatment effects of pancreatic polypeptide (PP) were characterized by studying agonist-stimulated enzyme secretion in pancreatic acini prepared from 8-week-old mice treated for 2 days with PP (200 micrograms kg-1 day-1) and in pancreatic lobules from untreated male rats. In the mouse studies, enzyme secretion was evaluated on the basis of percentage total amylase released, amylase released per unit of DNA, and amylase released per unit of protein. When expressed as percentage total amylase released, the acini from mice treated with PP were significantly less responsive to pancreatic secretagogues than were acini from control animals. Chronic treatment with bovine PP lowered the maximal response to carbachol (12.3 +/- 0.3 vs. 9.0 +/- 0.3% total amylase release in control and PP treated, respectively), decreased the magnitude of the difference between basal and maximal amylase release (10.6 +/- 0.4 vs. 6.2 +/- 0.5% total amylase release in control and PP treated, respectively), and affected these changes without modifying the dose of carbachol producing half-maximal amylase release. Similarly, the percentage of total amylase released in response to all doses of cholecystokinin octapeptide (1-100 pM) was reduced by chronic treatment with PP. However, when amylase release was expressed relative to protein or DNA, no differences in enzyme release were detected between treatments with either secretagogue. Chronic treatment with PP increased the total amount of amylase in the acini (per unit DNA or protein), but the increased amylase appeared to be unavailable for release since the actual amount (per microgram DNA or milligram protein) released in response to agonists did not differ between treatments.(ABSTRACT TRUNCATED AT 250 WORDS)     

Distribution, release, and secretory activity of epidermal growth factor in the pancreas.

This study was designed to determine the distribution of immunoreactive epidermal growth factor (EGF) in the gastrointestinal tract and the action of this peptide on pancreatic secretion in vivo and in vitro. Immunoreactive EGF was found in large amounts in the salivary glands and the pancreas and in the pancreatic juice. EGF infused subcutaneously (50 micrograms/kg-h) in conscious rats with intact or removed salivary glands stimulated pancreatic protein secretion after 4 h of peptide infusion; this effect was completely prevented by the pretreatment with DL-difluoromethyl-ornithine (DFMO) (200 mg/kg), an irreversible inhibitor of activity of ornithine decarboxylase (ODC), a key enzyme in polyamine synthesis. EGF added to the incubation medium in concentrations ranging from 10(-10)-10(-6) M increased, in a concentration-dependent manner both unstimulated and stimulated by caeruelin or urecholine, amylase release from dispersed pancreatic acini obtained from rats pretreated in 3 h with EGF in a dose of 50 micrograms/kg-h. Spermine given at concentrations ranging from 10(-12)-10(-6) M to the freshly prepared rat pancreatic acini also increased amylase release in a concentration-related manner. DFMO injected in a single dose (200 mg/kg), before the infusion of EGF to the rats, completely abolished the stimulatory effect of EGF on amylase release, but failed to affect that of spermine. This study shows that 1. EGF is present in large amounts in pancreatic tissue and pancreatic juice. 2. EGF stimulates pancreatic secretion in vivo and amylase release in vitro from isolated rat pancreatic acini. 3. The activation of ODC and polyamine biosynthesis in acinar cells plays an important role in EGF-induced stimulation of pancreatic secretion.     

Effects of calmodulin inhibitors on amylase secretion from rat pancreatic acini.

To investigate the role of calmodulin in stimulus-secretion coupling in pancreatic acinar cells, we studied the effects of W-7, a calmodulin inhibitor, and KN-62, a specific inhibitor of Ca2+/calmodulin-dependent protein kinase II (Ca2+/CaM kinase II), on amylase secretion from rat pancreatic acini. Calmodulin inhibitor (W-7, 100 microM) and Ca2+/CaM kinase II inhibitor (KN-62, 10 microM) reduced amylase secretion stimulated by cholecystokinin (CCK) or carbachol. W-7 and KN-62 also inhibited amylase secretion stimulated by both calcium ionophore (A23187) and phorbol ester (12-O-tetradecanoylphorbol-13-acetate, TPA). To clarify the role of calmodulin in the interaction of intracellular mediators, pancreatic acini were permeabilized with streptolysin O. Following permeabilization, amylase secretion was stimulated by submicromolar free Ca2+, and this Ca(2+)-dependent amylase secretion was enhanced by guanosine 5'-[gamma-thio]triphosphate (GTP gamma S), TPA or cyclic adenosine 3',5'-monophosphate (cAMP). W-7 and KN-62 had no effects on amylase secretion stimulated by Ca2+ alone, but inhibited the enhancement in Ca(2+)-dependent amylase secretion by GTP gamma S, TPA or cAMP. These data suggest that calmodulin plays an important role in Ca(2+)-dependent amylase secretion from pancreatic acinar cells and in the interaction between Ca2+ and other intracellular messengers.     

Impaired gastric acid and pancreatic enzyme secretion in patients with Crohn's disease may be a consequenece of a poor nutritional state

INTRODUCTION: Impaired pancreatic function has been reported in Crohn's disease, the cause of which is uncertain. This study investigated the effect of malnutrition, and subsequent re-feeding, on digestive function and protein synthesis in Crohn's disease patients. METHODS: Gastric acid and pancreatic secretion studies were performed on malnourished Crohn's patients before, and after a period of intensive nutritional support. Whole body, as well as pancreatic enzyme protein synthesis was investigated by [14C]leucine isotope incorporation studies. Results were evaluated in comparison to normal healthy volunteers. RESULTS: The mean body mass index (BMI) of the Crohn's patients was 14.14 kg/m2. The Crohn's patients had reduction in the secretion of gastric acid (7.36 versus 25.53 mEq/h; P < 0.01), and the pancreatic enzymes, amylase (759.6 versus 2305 U/h; P < 0.01), lipase (33.01 versus 118.6 U/h; P < 0.01) and trypsin (97.43 versus 341.4 U/h; P < 0.01). Resting energy expenditure (REE), expressed in relation to body mass, was greater in the malnourished Crohn's disease patients (38.25 versus 25.36 kcal/kg/d; P = 0.01). Total body protein synthesis was reduced (2.82 versus 4.39 g protein/kg/d; P < 0.05), with significant impairment in the synthesis of pancreatic enzymes, and reduction of zymogen stores. Following re-feeding, the BMI of the Crohn's patients improved to 16.80 +/- 0.66 kg/m2. Pancreatic enzyme synthesis improved, with significant increase in pancreatic enzyme stores and secretion, to levels similar to control values. Gastric acid secretion also improved, although still lower than the control value. CONCLUSION: Malnutrition may play a significant role in the impairment of gastric acid and pancreatic secretion in Crohn's disease patients.     

Trypsin as a regulator of pancreatic secretion in the rat.

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

Effects of Octreotide Pretreatment in Experimental Acute Pancreatitis

Background: Severity of systemic lesions and mortality of experimental acute pancreatitis (AP) are reduced after pancreatic enzyme content reduction induced by cerulein administration. Octreotide has been used both pro- phylatically and therapeutically in AP. The possible effects of octreotide on pancreatic enzyme content and its influence on pulmonary lesions of experimental AP were assessed in this study. Methods: Wistar male rats were divided in two branches: Branch I - Animals divided into three groups: Group Sa (n = 10) intravenous saline infusion; Group Ce (n = 10) intravenous cerulein infusion, (0.133 ig/kg ^-1· h ^-1 ) and Group Oc (n = 10) SC octreotide (10 ig/kg ^-1 ). Trypsin, elastase and amylase pancreatic contents as well as serum amylase were determined thereafter in all three groups; Branch II - Rats treated as in branch I, were submitted to sodium taurocholate AP (Groups Sa+AP, Ce+AP and Oc+AP). Two hours thereafter amylase and TAP assays were performed in serum, ascites and pancreatic tissue in eight animals of each group. Pulmonary histology was studied by morphometry 24 h after AP in the remaining animals.Results: Increased serum amylase and pancreatic enzyme contents were observed in octreotide-treated animals when compared to animals receiving saline or cerulein. After AP increases of serum and ascitic fluid amylase and of pancreatic TAP were observed in octreotide pre-treated animals when compared to saline and cerulein groups. Pulmonary interstitial and alveolar edema after AP was significantly increased in rats receiving octreotide as compared to the cerulein group.Conclusion: Octreotide administration acutely increases the enzymatic content of the pancreas and thus may have a potential deleterious influence in the evolution of AP.     

Impaired pancreatic exocrine function in rats with carbon tetrachloride-induced liver cirrhosis.

BACKGROUND: Substantial numbers of studies have revealed the close correlation between chronic pancreatitis and cirrhosis in human. However, the situation with regard to pancreatic enzyme secretion is less clear. AIM: The aim of the study was to investigate pancreatic exocrine function in rats with carbon tetrachloride-induced liver cirrhosis in rats. METHODS: Pancreatic exocrine function and morphology in Sprague-Dawley rats with carbon tetrachloride-induced liver cirrhosis were investigated. Pancreatic exocrine functions stimulated by cholecystokinin-8 and other secretagogs were assessed in isolated pancreatic acini, and in vivo and morphological changes were studied by routine histological examination and electron microscopy. RESULTS: The basal and cholecystokinin-8-stimulated amylase releases from acini and acinar amylase content were significantly lower in the cirrhotic rats than the control. None of the secretagogs induced the some amount of amylase release in cirrhotic as in control rats. Volume of the pancreatic juice and outputs of amylase and protein were significantly decreased under basal and cholecystokinin-8-stimulated conditions in vivo. Electron microscopy revealed most of the rough-surfaced endoplasmic reticulum accompanying less numbers of ribosomes to be dilated and some mitochondria to be swollen in cirrhotic rats. CONCLUSION: Pancreatic exocrine functions are decreased in cirrhotic rats owing to alterations at the electron microscopic levels, reflecting an impaired acinar intracellular messenger system.     

Effect of somatostatin on pancreatic enzyme secretion

The effect of somatostatin (SS) on the pancreatic enzyme secretion was studied in a perfusion system using dispersed pancreatic rat acini in vitro. In addition the effect of SS on pancreatic secretion in vivo was also studied in conscious rats for comparison. In an in vitro study, 6×10^-7M SS-14 caused no significant change in amylase release when added 20 min before stimulation by 10^-5M carbamylcholine (Cch), 10^-6M A23187, 5×10^-7M secretin and 2mM dibutyryl cyclic AMP. The addition of 6×10^-7M SS-28 also caused no significant change in amylase release stimulated by 10^-5M Cch. High performance liquid chromatographic examination indicated that no degradation of either SS-14 or SS-28 occurred after reaction with dispersed acini. In an in vivo study SS-14 caused marked inhibition of basal pancreatic secretion and stimulated pancreatic secretion by bile-pancreatic juice diversion. These results indicate that SS has no direct inhibitory action on rat pancreatic secretion, and that SS may inhibit the pancreatic secretion by indirect mechanisms.     

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.