This study was undertaken to determine whether intermittent pancreatic juice diversion (PJD) from the intestine can induce pancreatic and duodenal growth. Concomitant infusions of SMS 201-995, a somatostatin analog, and L-364,718, a cholecystokinin (CCK) receptor antagonist, were used to establish the involvement of endogenous CCK. Fed rats equipped with biliary, duodenal, and pancreatic cannulae had their pancreatic juice diverted 8 h/day for 4 days and were infused or not with either SMS 201-995 (5 micrograms/kg.h) or L-364,718 (0.5 mg/kg.h) during diversion. After 4 days, rats were killed, and their pancreas and duodenum were excised for measurements of parameters indicative of growth. In normally fed rats with pancreatic juice returned, SMS 201-995 inhibited daily pancreatic secretions of volume and protein, whereas L-364,718 inhibited only protein output. These two inhibitors had no effect on normal pancreatic and duodenal growth. PJD was associated with increased volume and protein output, increased plasma CCK level, and pancreatic growth. All of these effects were completely blocked by SMS 201-995 and L-364,718, with the exception of plasma CCK level by the CCK antagonist. None of these treatments affected duodenal growth. These results suggest that intermittent infusions of these two inhibitors had no effect on normal pancreatic and duodenal growth, but were successful in preventing pancreatic growth induced by PJD. They also indicate that endogenous CCK is involved in PJD-induced pancreatic growth.
The role of cholecystokinin (CCK) in induction and maintenance of pancreatic growth stimulated by a high-protein diet was investigated. Rats adapted to 5% casein diet were switched to 70% casein for 21 days. MK-329, a CCK receptor antagonist, was administered at 2.5 mg.kg-1.day-1 ip, beginning on day zero (day zero treatment) or day 7 (midcourse treatment) of feeding 70% casein and thereafter. Another group was returned to 5% casein after 7 days of feeding 70% casein. Feeding 70% casein significantly stimulated increases of 32, 87, 74, 216, and 1,450% in pancreatic DNA, RNA, wet weight, protein content, and chymotrypsin content, respectively. Midcourse treatment with MK-329 was more effective than day zero treatment, and it completely reversed increases in pancreatic weight and RNA content, partially reversed increases in protein and chymotrypsin content, and had no effect on DNA content. Return to 5% casein rapidly reversed increases in pancreatic parameters, except for DNA. The results indicate that CCK is essential for induction and maintenance of dietary protein-stimulated pancreatic hypertrophy.
This study was undertaken to further characterize the secretory response of the rat pancreas after reserpine treatment. Rats were given reserpine (1 mg kg-1 day-1 i.p.) or vehicle for 7 days. To distinguish between specific effects of reserpine and those related to secondary malnutrition caused by the drug, the secretory response of a group of pair-fed (PF) animals to reserpine was also investigated. Amylase release from dispersed pancreatic acini, prepared from control (C), PF and reserpine-treated (R) rats were used to evaluate functional secretory capacity. Reserpine and pair-feeding caused reduced responses of pancreatic acini to secretin. The pair-feeding-altered secretin response was greatly improved by increasing extracellular Ca2+ concentration, whereas a slight improvement was noticed in the R group. Reserpine significantly reduced the secretory response to the ionophore A23187 at concentrations above 5 × 10-7M in 1.25 mM Ca2+; in 2.5 mM Ca2+, the response to the ionophore was significantly higher in the R group than in C at all ionophore concentrations. Furthermore, at 2 × 10-7M ionophore, the secretory response to secretin in the R group became significantly higher than that in the C group but comparable to that of the control + ionophore. In conclusion, reserpine affects the secretory response to secretin as did pre-exposure of pancreatic acini to a high concentration of carbamylcholine. The modified secretory response to the ionophore following reserpine treatment indicates that reserpine may act as a ‘Ca2+ entry mechanism’ antagonist which may explain the partial reduction in the secretin response.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.