Effect of pancreatic polypeptide-antiserum on bombesin-stimulated pancreatic exocrine secretion in dogs

Bombesin is a potent stimulus of both pancreatic protein secretion and plasma pancreatic polypeptide (PP) release in dogs. Physiological plasma levels of PP have been shown to inhibit pancreatic exocrine secretion in dogs. We examined the question whether the concomitant release of PP exerts a suppressive action on the pancreatic exocrine response to bombesin in dogs by measuring pancreatic exocrine secretion with and without in vivo immunoneutralization of PP with a high affinity PP-antiserum. Bombesin was infused in a dose of 150 ng/kg·hr, resulting in a rise of plasma PP from 24±5 to 224±25 pM (p<0.01). Before this bombesin infusion, 7 ml of normal rabbit serum had been administered to the dogs (n=8). At a later stage, the study was repeated after administration of 7 ml of PP-antiserum to the same animals. The bombesin induced increase in pancreatic exocrine secretion during administration of PP-antiserum (flow rate 24±10 ml/hr, protein output 1.35±0.43 g/hr, and bicarbonate output 3.25±1.42 mmol/hr) was not significantly different from that during control rabbit serum (flow rate 21±7 ml/hr, protein output 1.26±0.38 g/hr, and bicarbonate output 3.18±1.10 mmol/hr). It is therefore concluded that the pancreatic exocrine response to bombesin is not affected by the concomitant secretion of PP.     

Effect of nitric oxide synthase inhibitors on the temporal coordination of duodenal contractions and pancreatic exocrine secretion in sheep

The present study evaluated the role of nitric oxide in the regulation of duodenal motility and pancreatic exocrine secretion in conscious sheep. Intravenous infusions of nitric oxide synthase inhibitors, Nω-nitro-l-arginine-methyl ester (l-NAME) and Nω-nitro-l-arginine, induced clusters of duodenal contractions like phase III of migrating motor complexes and simultaneously inhibited flow rate, bicarbonate ion and enzyme outputs of pancreatic juice. The effects of l-NAME were inhibited by simultaneous infusion of l-arginine, but not altered by adrenergic blockade using a combined infusion of phentolamine and propranolol. Inhibition of the pancreatic secretion occurred in coincidence with initiation of the duodenal contractions, while the pancreatic secretion was not inhibited when the premature duodenal contractions were abolished by the l-arginine infusion. The initiation of the cluster of duodenal contractions by l-NAME was not abolished by background infusion of atropine, whereas the amplitude of contractions was significantly inhibited by atropine. These results suggest that intrinsic nitric oxide plays a crucial role in the regulation of duodenal tone and maintenance of continuous secretion by the exocrine pancreas in sheep. These results also implied that inhibition of pancreatic exocrine secretion by the nitric oxide synthase inhibitor is presumably mediated in part through the contractile effect on the duodenum. Accepted: 27 June 2000     

Hydrogen exchange kinetics of bovine pancreatic trypsin inhibitor beta-sheet protons in trypsin-bovine pancreatic trypsin inhibitor, trypsinogen-bovine pancreatic trypsin inhibitor, and trypsinogen-isoleucylvaline-bovine pancreatic trypsin inhibitor

Hydrogen exchange rates of six beta-sheet peptide amide protons in bovine pancreatic trypsin inhibitor (BPTI) have been measured in free BPTI and in the complexes trypsinogen-BPTI, trypsinogen-Ile-Val-BPTI, bovine trypsin-BPTI, and porcine trypsin-BPTI. Exchange rates in the complexes are slower for Ile-18, Arg-20, Gln-31, Phe-33, Tyr-35, and Phe-45 NH, but the magnitude of the effect is highly variable. The ratio of the exchange rate constant in free BPTI to the exchange rate constant in the complex, k/kcpIx, ranges from 3 to much greater than 10(3). Gln-31, Phe-45, and Phe-33 NH exchange rate constants are the same in each of the complexes. For Ile-18 and Tyr-35, k/kcpIx is much greater than 10(3) for the trypsin complexes but is in the range 14-43 for the trypsinogen complexes. Only the Arg-20 NH exchange rate shows significant differences between trypsinogen-BPTI and trypsinogen-Ile-Val-BPTI and between porcine and bovine trypsin-BPTI.     

Effect of exercise-induced acidosis on aldosterone secretion in men

The present study was carried out to elucidate whether an exercise-induced increase in plasma hydrogen ion concentration influences aldosterone secretion. Six healthy men (aged 22–25 years) performed two intermittent exercise tests with and without drug administration. The intensities of these exercise tests were 40% maximal oxygen uptake (V˙O_2max) and 90% V˙O_2max, respectively. Administration of 2-mg Dexamethasone and 50-mg Captopril caused an almost complete suppression of adrenocorticotropic hormone (ACTH) and an enhancement of the elevation in renin concentration during exercise, indicating successful inhibition of ACTH release and angiotensin II production during exercise. While the magnitude of the increase in aldosterone in the drug experiment was depressed compared with the control experiment, a significant increase in aldosterone concentration was observed at the end of the 90% V˙O_2max exercise. Whilst the change in aldosterone concentration did not correlate with the change in plasma potassium concentration, there was a significant correlation between aldosterone and plasma hydrogen ion concentrations in the drug experiment. Since the correlation coefficient was low (r=0.455), the biological meaning of this correlation should be further investigated. These results would suggest that an elevation of plasma hydrogen ion concentration induced by exercise per se appears to be related, at least in part, with increased aldosterone secretion, independent of the pituitary-adrenal axis, and the renin-angiotensin system. Accepted: 23 September 1997     

Effect of vagotomy on the duodenal mechanisms regulating gastric secretion

Gastric acid secretion, gastrin and secretin serum levels after duodenal acidification were studied in 6 dogs, before and after a troncular vagotomy was performed in each one. After duodenal acidification in normal dogs, a 45.2% inhibition of gastric acid secretion with parallel 55-84% increases in the serum secretin levels, without changes in the serum gastrin levels, was noted. When a troncular vagotomy was performed in the same dogs, duodenal acidification produced a 20% (non significant) inhibition of gastric acid secretion with parallel 34-72% increases in the serum secretin levels and without changes in the serum gastrin levels. It is concluded that vagus nerve is necessary to assess a physiological inhibition of gastric secretion after duodenal acidification and it is suggested that humoral and nervous factors are implicated and coexist in these mechanisms.     

Effect of sparteine sulfate on insulin secretion in normal men

This study aimed at evaluating the influence of sparteine sulfate either upon basal plasma glucose and insulin or glucose-induced insulin secretion in normal man. Thirteen overnight fasted volunteers took part in this study; five of them were submitted to sparteine sulfate bolus (15 mg in 10 ml of saline solution) followed by a slow infusion (90 mg/100 ml X 60 min) and eight subjects underwent two different glucose pulses (20 gr. i.v.) in absence or in presence of sparteine, infused as described above. In basal conditions, along with sparteine infusion, plasma glucose showed a progressive and significant decrease (P less than 0.0001) and plasma insulin was significantly higher from min 10 to 120' (P less than 0.0005-0.001). Even during the glucose-induced insulin secretion, in the presence of sparteine infusion, plasma glucose levels were significantly lower while plasma insulin levels were significantly higher when compared to those observed after glucose alone. The acute insulin response (AIR) was 42 +/- 10 microU/ml after glucose alone vs 67 +/- 9 microU/ml after glucose plus sparteine (P less than 0.05). Total insulinemic areas were significantly different being 1410 +/- 190 vs 2250 +/- 310 microU/ml/min (P less than 0.001) during glucose and glucose plus sparteine infusion, respectively. This study thereby, demonstrates that in normal man sparteine sulfate, administrated by intravenous infusion, is able to increase either basal or glucose-induced insulin secretion.     

Effect of glycerol on the interactions and solubility of bovine pancreatic trypsin inhibitor

The effects of additives used to stabilize protein structure during crystallization on protein solution phase behavior are poorly understood. Here we investigate the effect of glycerol and ionic strength on the solubility and strength of interactions of the bovine pancreatic trypsin inhibitor. These two variables are found to have opposite effects on the intermolecular forces; attractions increase with [NaCl], whereas repulsions increase with glycerol concentration. These changes are mirrored in bovine pancreatic trypsin inhibitor solubility where the typical salting out behavior for NaCl is observed with higher solubility found in buffers containing glycerol. The increased repulsions induced by glycerol can be explained by a number of possible mechanisms, all of which require small changes in the protein or the solvent in its immediate vicinity. Bovine pancreatic trypsin inhibitor follows the same general phase behavior as other globular macromolecules where a robust correlation between protein solution second virial coefficient and solubility has been developed. This study extends previous reports of this correlation to solution conditions involving nonelectrolyte additives.     

Effect of pancreatic enzyme supplementation on postprandial plasma cholecystokinin secretion in patients with pancreatic insufficiency

To test the hypothesis, based on studies in healthy man and dog, that patients with impaired digestion due to severe pancreatic insufficiency have impaired postprandial cholecystokinin (CCK) secretion that can be improved by the addition of pancreatic enzymes, we have studied plasma CCK responses to a test meal with and without addition of pancreatic enzymes in 10 patients with pancreatic insufficiency and steatorrhea, in 8 patients with chronic pancreatitis without steatorrhea, and in 6 healthy subjects. The patients with steatorrhea had a significantly (P less than 0.001) lower integrated plasma CCK response to the meal (177 +/- 23 pM.150 min) than the healthy subjects (468 +/- 41 pM.150 min), while patients with chronic pancreatitis without steatorrhea had an intermediate integrated postprandial CCK secretion (327 +/- 101 pM.150 min). Addition of pancreatic enzymes to the meal significantly augmented the integrated CCK response in both the patients with steatorrhea to 483 +/- 72 pM.150 min (P less than 0.01) and in those without steatorrhea to 480 +/- 85 pM.150 min (P less than 0.05). These values were not significantly different from those in the healthy subjects (521 +/- 86 pM.150 min). Integrated CCK secretion in the three groups during bombesin infusion was similar (patients with steatorrhea 134 +/- 23 pM.20 min, patients without steatorrhea 131 +/- 33 pM.20 min, and healthy subjects 146 +/- 28 pM.20 min), indicating a normal capacity to secrete CCK in response to a humoral stimulus. These data are in agreement with the suggestions from previous studies that digestion of nutrients by pancreatic enzymes plays an important role in the regulation of plasma CCK secretion after feeding.     

Effect of cytochalasin D on secretion by rat pancreatic acini

Using the model of isolated acini the effect of cytochalasin D (CD) on rat pancreatic secretion in vitro was studied. The influence of CD (0.01-10 micrograms/ml = 0.02-19.7 microM) on amylase secretion and 3H-pulse-labelled protein release was measured under two sets of conditions: (a) basal, and (b) stimulated by 77pM caerulein. Basal secretion was not altered, but stimulated secretion of amylase and 3H-labelled proteins were similarly inhibited by up to 45%. It is concluded that CD affects only exocytosis of zymogen granules and not intracellular transport.     

半胱胺对鹅胰液分泌及胰酶活性的影响

目的 :研究半胱胺对鹅胰液分泌及胰酶活性的影响。方法 :12只装有胰腺～十二指肠长久性瘘管的成年鹅。试验采用自身对照 ,试验期在日粮中一次性添加半胱胺 (10 0mg/kgbw)。连续收集计量胰液并测定胰酶活性。 结果 :①半胱胺使鹅胰液的分泌速率较对照期显著上升 (2 4 0 .16 % ,P <0 .0 1) ,其中白天升高 2 34.4 5 % ,夜间增高了2 5 3.70 %。②试验期单位容积胰蛋白酶的活性较对照期升高了 4 9.0 5 % (P <0 .0 1) ,而胰脂肪酶和胰淀粉酶的活性却较对照期分别降低了 2 5 .4 4 %和 2 1.95 % ,且变化幅度具有昼夜的差别。③试验期胰腺每小时分泌胰蛋白酶、胰脂肪酶和胰淀粉酶的总活性较对照期分别升高 4 0 6 .88% (P <0 .0 1)、15 3.5 8% (P <0 .0 1)和 16 6 .5 9% (P<0 .0 1) ,白天增加的幅度较夜晚大。结论 :半胱胺能促进鹅胰液的分泌 ,增加胰液中蛋白酶、脂肪酶和淀粉酶分泌的总量 ,从而提高鹅对饲料的消化能力 ,适应机体生长对营养的需求