Effects of secretin and caerulein on luminal feedback regulation of pancreatic enzyme secretion in rats

The stimulatory pancreatic response to exclusion of pancreatic proteases from the intestine was compared with the response to stepwise increasing doses of secretin and caerulein in conscious rats. Secretin stimulated pancreatic fluid secretion in a dose-related manner with or without intraduodenal return of pancreatic juice, while it could not significantly affect enzyme secretion. The dose response curve for enzyme secretion to caerulein was smooth during return of the juice. However, the already increased enzyme secretion by pancreatic juice diversion was only stimulated with the smallest dose of caerulein. The maximal dose of caerulein for enzyme secretion during return had been supramaximal dose during diversion. Intraduodenal trypsin inhibitor failed to stimulate enzyme secretion during diversion but induced the same stimulatory effect as the submaximal dose of caerulein during return. Different doses of intraduodenal trypsin caused an almost dose-related inhibition. It is concluded that a submaximal level of endogenous CCK might participate in the feedback regulation of pancreatic enzyme secretion in rats.     

Involvement of pancreatic polypeptide (PP) in luminal feedback regulation in the conscious rat

The possibility of the involvement of pancreatic polypeptide (PP) release in luminal feedback regulation in the conscious rat was examined. Pancreatic secretion in the intestinal phase in the rat is regulated by negative feedback control so that a decrease in luminal protease activities produced by a diversion of bile-pancreatic juice (BPJ) from the intestine stimulates pancreatic secretion. Plasma concentration of rat PP and the effect of exogenous infusion of rat PP on pancreatic secretions during BPJ diversion were determined. Plasma PP concentration significantly increased with BPJ diversion and peaked at 90 min after BPJ diversion began, almost paralleling changes in protein output. Exogenous PP infusion (1, 2, and 10 g/kg/hr) inhibited pancreatic protein and fluid outputs but not the bicarbonate output during BPJ diversion. PP was shown to be physiologically released in the intestinal phase of pancreatic secretion; however, the physiological role of endogenous PP remains unknown.This study was supported in part by the Uehara Memorial Foundation and a grant in aid from the Japanese Ministry of Education.     

Release of pancreatic polypeptide and its mechanism in luminal feedback regulation in the conscious rat

Exclusion of bile and pancreatic juice (BPJ) from the proximal intestine increases the release of pancreatic polypeptide (PP) from 4.4 to 14.3 pM and its increase was diminished by the intravenous infusion of atropine (100 micrograms/kg/h) in conscious rats. Neither intravenous bolus injection nor continuous infusion of cerulein did increase plasma PP concentration. It is suggested that the increase in plasma PP concentration produced by BPJ diversion is regulated by cholinergic mechanism, but not by cholecystokinin (CCK) released despite the known fact that BPJ diversion increases plasma CCK concentration.     

Lack of cholinergic control in feedback regulation of pancreatic secretion in the rat

The effect of atropine (100 micrograms/kg/h, i.v.) on plasma cholecystokinin and pancreatic secretion during diversion of bile and pancreatic juice from the intestine was studied in 8 conscious rats equipped with jugular vein, pancreatic, biliary, and duodenal cannulas, and with pyloric ligation and gastric drainage. Diversion of bile and pancreatic juice to the exterior for 4 h significantly increased pancreatic protein and fluid secretion. Atropine delayed the pancreatic response to diversion, but during 4 h of diversion, neither total nor incremental pancreatic protein or fluid secretion was inhibited by atropine. Plasma cholecystokinin levels were elevated after diverting bile and pancreatic juice and were not significantly reduced by atropine (23.0 +/- 6.6 pM vs. 16.0 +/- 3.9 pM at 1.5 h and 17.3 +/- 5.4 pM vs. 13.1 +/- 2.9 pM at 4 h after bile and pancreatic juice diversion; atropine-treated vs. controls, respectively). These results indicate that cholinergic nerves play no important role in feedback regulation of cholecystokinin release and that the previously reported suppressive effect of atropine on the pancreatic response to diversion of bile and pancreatic juice from the intestine was secondary to inhibition of gastric secretion.     

Regulation of gastric somatostatin secretion in the mouse by luminal acidity: a local feedback mechanism

The present study was designed to determine whether somatostatin secretion induced by histamine or pentagastrin in the isolated luminally perfused mouse stomach was a direct effect of the secretagogues on gastric somatostatin cells or an indirect effect mediated by the increase in luminal acidity. Perfusion of the lumen with exogenous acid (80-480 nmol/min) caused an increase in somatostatin secretion in proportion to the increase in luminal acidity. The increase in somatostatin secretion was resistant to tetrodotoxin and attained maximal levels (61.6% +/- 8.7% above basal level) similar to those elicited by maximal doses of secretagogues. Conversely, neutralization of basal acid secretion with bicarbonate (20-160 nmol/min) caused a decrease in somatostatin secretion in proportion to the decrease in luminal acidity. Similarly, neutralization of the secretagogue-induced increments in acid secretion with bicarbonate or inhibition of the increments with cimetidine abolished the corresponding increments in somatostatin secretion. It is proposed that acid-induced release of somatostatin in proximity to parietal cells serves as a negative feedback mechanism restraining acid secretion.     

Effect of atropine on feedback regulation of pancreatic enzyme secretion in rats

The effect of atropine on the feedback regulatory mechanism of pancreatic enzyme secretion exerted by intraluminal trypsin was investigated in conscious rats. Intravenous atropine infusion (50 micrograms/kg/h) suppressed pancreatic enzyme secretion to the same extent in both the presence and the absence of pancreatic juice in the intestine. However, with or without atropine infusion, pancreatic secretory rate was higher throughout diversion of pancreatic juice than during intraduodenal return of the juice. Atropine also inhibited the stimulatory response to intraduodenal trypsin inhibitor and intravenous caerulein. The atropine-induced inhibitory effect was not significantly different between the two experimental conditions. Regardless of atropine administration, both trypsin inhibitor and caerulein caused a significant increase in pancreatic secretion. The results suggest that cholinergic mechanisms have little influence on the feedback regulation. Cholinergic mechanisms may play an important role in maintaining the physiologically basal secretion because the basal secretion is atropine-sensitive.     

Kinesin is involved in regulation of rat pancreatic amylase secretion

BACKGROUND & AIMS: Kinesin has recently been localized to zymogen granules of pancreatic acini and is suggested to participate in exocytosis of exocrine pancreas. We examined the function of kinesin in regulated exocytosis of pancreatic acini in this study. METHODS: Kinesin function in exocytosis was examined by introducing hexahistidine-tagged recombinant kinesin protein and antikinesin monoclonal antibody into streptolysin-O-permeabilized acini. Intracellular localization of introduced recombinant kinesin was investigated by immunohistochemistry. Interaction between recombinant kinesin and the microtubule network was confirmed by nocodazole pretreatment of acini. Kinesin regulation by secretagogues was investigated by examining their effect on adenosine triphosphatase (ATPase) activity of endogenous kinesin. RESULTS: Recombinant kinesin enhanced calcium-stimulated amylase release from streptolysin-O-permeabilized acini. Introduced recombinant kinesin was localized to both the microtubule network and zymogen granule. Nocodazole pretreatment of acini abolished the enhancing effect of recombinant kinesin on calcium-stimulated amylase release. Antikinesin antibody inhibited amylase release stimulated by the combination of calcium and cyclic adenosine monophosphate (cAMP) but not that stimulated by calcium alone. Secretin and 8-bromo-cAMP increased ATPase activity of endogenous kinesin. CONCLUSIONS: Kinesin plays a stimulatory role in regulated exocytosis of pancreatic acini and is involved in stimulus-secretion coupling through a cAMP-dependent pathway.     

Stimulation of acid secretion increases the gastric gland luminal pressure in the rat.

The gastric mucosal gland luminal pressure was measured in vivo with a pressure-sensitive microelectrode technique (servo-null) in anesthetized rats. A microelectrode was inserted into a gland lumen by means of a micromanipulator at an angle of 30 degrees to the mucosal surface. Acid secretion was estimated by measuring the pH in the solution covering the mucosa. During control conditions, when the mucosa was secreting acid spontaneously, gland luminal pressure was 12.3 +/- 1.2 mm Hg. At about 9 minutes after starting pentagastrin administration, the luminal pressure stabilized at 17.2 +/- 1.7 mm Hg. In the rats given impromidine (500 micrograms.kg-1.h-1) luminal pressure gradually increased (during 9-10 minutes) from a control level of 9.0 +/- 1.9 to 17.3 +/- 2.6 mm Hg. During the majority of experiments, the luminal pressure oscillated at 3-7 cycles per minute. The results show that intraluminal pressure increases during stimulated acid secretion, indicating that a resistance to the volume secretion exists in the upper part of the gastric crypts. This hydrostatic pressure may well be the driving force for creating channels for acid and pepsin to cross the mucus layer covering the mucosal surface.     

Role of the hypophysis in regulation of pancreatic and gastric somatostatin

Since hypophysectomy and GH deficiency are associated with decreases in hypothalamic content and release of SRIF, it was of interest to determine whether these hormonal alterations also affect peripheral tissue levels of SRIF. Hypophysectomized (hypox) rats were studied at various times after surgery and compared with age-matched controls. Pancreatic, gastric, and hypothalamic SRIF levels were measured by RIA and expressed as nanograms per mg protein or nanograms per organ. Decreased levels of hypothalamic SRIF were observed in hypox animals at all time periods after surgery. In contrast, pancreatic SRIF concentrations increased within 1 week of hypophysectomy, and the tissue content increased as much as 3-fold after 20 weeks. Measurement of the SRIF content of isolated rat islets of Langerhans revealed a 67% increased content/islet in hypox rats compared with controls. The gastric SRIF concentration was not changed early, but subsequently, the total organ content was significantly decreased compared with that in controls. The changes in stomach and pancreas SRIF contents became more marked with duration of pituitary deficiency. Studies in genetically dwarfed Snell mice, lacking primarily GH but also other anterior pituitary hormones, were similar to the findings noted in hypox rats; the SRIF concentration was significantly increased in the pancreas and decreased in the stomach and hypothalamus. It is probable that deficiencies in other hormones as well as GH are involved in producing the changes in pancreatic SRIF in hypox and dwarfed animals. This contention was supported in that replacement of T3 (5 micrograms/kg . day) reduced pancreatic SRIF concentration by 30%, while GH plus T3 produced a significantly greater (60%) decrease in pancreatic SRIF in hypox rats.     

Susceptibility of lactase to luminal proteases in developing rat intestine.

BACKGROUND: Postnatal development of rat intestine is associated with a decline in brush-border lactase activity. This phenomenon is similar to the adulthood hypolactasia in humans. However, the mechanism underlying this process is not understood. METHODS: The effect of luminal proteases from adult rat intestine on the intestinal lactase activity in animals aged 7, 14, 21 and 30 days was studied in in vitro experiments. Lactase levels were estimated using enzyme assays and Western blot analysis. RESULTS: Incubation of purified brush borders with increasing concentrations of luminal proteases reduced the lactase activity in intestine of 7-day-old rats, but not in that of adult animals. Western blot analysis revealed low signal of the 220-kDa lactase protein in 7-day-old animals, but not that of older weaned animals. CONCLUSIONS: Our findings suggest that luminal proteases may be responsible for the maturational decline in intestinal lactase activity.     

Evidence that pancreatic proteases enhance vitamin B12 absorption by acting on curde preparations of hog gastric intrinsic factor and human gastric juice.

Crude preparations of hog gastric intrinsic factor or their own previously collected gastric juices administered with labeled vitamin B12 did not enhance vitamin B12 absorption in patients with vitamin B12 malabsorption secondary to pancreatic insufficiency. However, when these sources of gastric intrinsic factor were incubated with three times crystallized preparations of insolubilized bovine trypsin or chymotrypsin, the proteolytic enzymes were removed by centrifugation, and the preparations of gastric intrinsic factor were readministered to these patients, the absorption of vitamin B12 was markedly enhanced. Studies of hog gastric intrinsic factor before and after exposure to proteolytic enzymes failed to show any difference on Sephadex chromatography or polyacrylamide gel electrophoresis or on its affinity for vitamin B12 or the ileal receptor in guinea pigs. These investigations demonstrate that: (1) gastric intrinsic factor as secreted by subjects with pancreatic insufficiency or obtained from hog pyloric mucosal extracts is ineffective in promoting vitamin B12 absorption in patients with pancreatic insufficiency, (2) incubation of crude preparations of gastric intrinsic factor with insolubilized pancreatic proteases modified these preparations of gastric intrinsic factor in an as yet undefined manner, allowing them to enhance vitamin B12 absorption, and (3) in vitro studies using gut sacs or brush border preparations do not reflect the abnormality in vitamin B12 absorption associated with pancreatic dysfunction.     

Role of cholecystokinin in the negative feedback control of pancreatic enzyme secretion in conscious rats

Using a specific radioimmunoassay for cholecystokinin (CCK) we have studied the relation between circulating CCK concentrations and the feedback regulation of pancreatic enzyme secretion in conscious rats. Recirculation of diverted bile-pancreatic juice into the duodenum or intraduodenal perfusion of trypsin during biliary-pancreatic juice diversion produced basal output of amylase and trypsin and low portal CCK levels (less than 10 pmol/L). Biliary-pancreatic juice diversion or inactivation of trypsin caused increased CCK concentrations (peak values 50-100 pmol/L) and enzyme outputs. During biliary-pancreatic juice diversion, infusion of the CCK receptor antagonist proglumide suppressed the enzyme response without altering the increase in CCK. Measurement of portal and peripheral CCK during biliary-pancreatic juice diversion yielded values of 131 +/- 37 and 32 +/- 5 pmol/L, respectively. The peripheral CCK levels corresponded to concentrations achieved during exogenous CCK-8 infusion which resulted in similar enzyme outputs. Gel chromatography of portal plasma during diversion of biliary-pancreatic juice revealed one peak of CCK corresponding to CCK-8, and a larger peak eluted between CCK-33 and CCK-8, probably representing CCK-22. Similar CCK components were found in water extracts of jejunal mucosa, whereas the acetic acid extracts mainly contained CCK-33/39. We conclude that the negative feedback regulation of pancreatic enzyme secretion in rats is mediated by the release of CCK from the intestine and that the major molecular form of CCK in plasma is probably CCK-22.