alpha-chymotrypsin and osteum

We have investigated whether hormonally mediated negative feedback mechanisms regulate pancreatic exocrine secretion in guinea pigs. In anesthetized guinea pigs prepared with a tube in the proximal duodenum, pyloric ligation, and pancreatic duct cannulation with PE-10 tubing, diversion of pancreatic juice for as long as 4 h in fasting states failed to increase either pancreatic secretion or plasma levels of secretin or cholecystokinin (CCK). In the same animal preparation, intraduodenal (ID) infusion of sodium oleate (SO) resulted in significant increases in both pancreatic secretin and plasma levels of the two hormones that were significantly suppressed by ID infusion of pancreatic juice or a combination of trypsin and chymotrypsin. In another group of guinea pigs, this significant increase in pancreatic secretion was profoundly suppressed by a rabbit antisecretin serum (0.2 ml) or loxiglumide (10 mg.kg-1.h-1). Moreover, a combination of the antiserum and loxiglumide completely abolished the pancreatic secretion. The effect of atropine, 20 micrograms.kg-1.h-1 i.v., on SO-stimulated pancreatic secretion and hormone release was also studied. Atropine completely suppressed the pancreatic secretion of volume flow, bicarbonate, and protein stimulated by SO, whereas neither one of the two hormone levels was affected by intravenous atropine, indicating that atropine blocks the actions of both secretin and CCK on the pancreatic exocrine secretion. It is concluded that a negative feedback regulation of exocrine pancreatic secretion is operative in the intestinal phase of pancreatic secretion in guinea pigs and that this feedback mechanism is mediated by both secretin and CCK. Furthermore, in guinea pigs, cholinergic tone plays an important modulating role in the mechanism.

Topics: Animals; Atropine; Cholecystokinin; Chymotrypsin; Feedback; Guinea Pigs; Male; Oleic Acid; Oleic Acids; Pancreas; Pancreatic Juice; Proglumide; Radioimmunoassay; Secretin; Trypsin

The effect of pancreatic proteases or juice on the sodium oleate-stimulated pancreatic secretion and plasma concentrations of secretin and cholecystokinin in anesthetized rats was investigated. Each rat received sodium oleate in a dose of 0.12 mmol.h-1 via a duodenal tube. Sodium oleate infusion significantly increased pancreatic secretion (volume and protein output) compared with the saline given the control group. The increase in pancreatic secretion paralleled significant elevations of plasma concentrations of secretin and cholecystokinin. To determine a possible role of pancreatic proteases on the responses induced by sodium oleate, saline, chymotrypsin, and trypsin, a combination of chymotrypsin and trypsin or pancreatic juice was infused into the duodenum. The pancreatic secretion was significantly reduced by pancreatic proteases or pancreatic juice, and the reduction paralleled the decreases in plasma concentrations of the two hormones. These agents suppressed both pancreatic secretion and plasma hormone levels in the following order of magnitude: (pancreatic juice or chymotrypsin + trypsin) greater than (trypsin) greater than (chymotrypsin). The reduction of pancreatic secretion by pancreatic proteases was reversed by intravenous administration of secretin and cholecystokinin in physiological doses. It is concluded that negative-feedback regulation of pancreatic secretion is operative in the intestinal phase in rats and that both secretin and cholecystokinin are involved in the regulation.

Topics: Animals; Cholecystokinin; Chymotrypsin; Duodenum; Male; Oleic Acid; Oleic Acids; Pancreatic Juice; Pancreatin; Peptide Hydrolases; Rats; Rats, Inbred Strains; Secretin; Trypsin