Interaction of secretin and glucagon on exocrine pancreatic secretion.

Inhibition of secretin-stimulated pancreatic secretion by glucagon was studied in anesthetized dogs. Two external pancreatic fistulas were prepared in dogs for both simultaneous and separate collection of pancreatic juice secreted by the right and left lobes. Two series of experiments were preformed. In the first, graded doses of glucagon (2.5 to 20 micrograms/kg/hr) were administered against a background infusion of 2 CHR U/kg/hr of secretin. In the second, a constant dose of glucagon (20 micrograms/kg/hr) was given against a background infusion of secretin doubling from 1 to 8 U/kg/hr. Infusion of glucagon was started when flow rate became nearly constant, and continued for 60 minutes in each dose. Glucagon produced the dose-related reduction in flow rate and bicarbonate secretion, but not in amylase secretion. This inhibitory effect was almost the same in size between the right and left lobes. No significant change of plasma secretin was observed during glucagon infusion. Michealis-Menten analysis of the dose in slopes (Km) and similar intercepts of Y-axis (CMR). These results suggest that glucagon inhibits competitively secretin-stimulated pancreatic secretion by acting probably on the same receptor as secretin.     

静脉输注胰淀素对大鼠胰岛激素分泌及血糖的影响

目的 观察外源性胰淀素对高脂饲养的SD大鼠胰岛素分泌第一时相胰高血糖素和胰岛素分泌的影响.方法 32只8周龄雄性SD大鼠随机分为常规饲养组(CC组)、高脂饲养组(CF组)、高脂饲养低剂量胰淀素组(AmyL组)、高脂饲养高剂量胰淀素组(AmyH组).饲养28周后进行静脉葡萄糖耐量试验(IVGTT),分别于静脉注射葡萄糖后0、3、5、10 min留取动脉血检测胰岛素及胰高血糖素水平,并同时测定血糖.AmyL组和AmyH组大鼠IVGTT前50 min开始以410 pmol·kg-1·min-1及610 pmol·kg-1·min-1的速度泵入胰淀素溶液.结果 AmyH组胰高血糖素水平显著低于CF组(P＜0.01);AmyL组及AmyH组大鼠胰岛素水平均显著低于CF组(P＜0.05, P＜0.01);AmyL组及AmyH组血糖均高于CF组(P＜0.05).结论 胰淀素在一定浓度范围可抑制胰高血糖素的异常分泌,但同时降低胰岛素分泌,且此作用强于抑制胰高血糖素的作用,造成血糖升高,提示胰淀素对血糖的影响可能与其对胰岛素及胰高血糖素分泌抑制之间的平衡有关.     

Effect of secretin, pancreozymin OP-CCK, and glucagon on bile flow and bile lipid secretion in rats.

Rats equipped with biliary, duodenal, and vena cava cannulae and supplemented with Na taurocholate received 4 hour infusions of gastrointestinal hormones. Boots secretin increased bile flow by 63% and bile acid, cholesterol, and phospholipid output by 75, 96, and 73% respectively. This stimulatory effect on bile flow and bile acid secretion was observed also in the four hour postinfusion period. Kabi secretin had practically no effect on bile secretion. Boots pancreozymin stimulated bile flow by 45% and to some extent also stimulated bile acid output. OP-CCK and glucagon stimulated mainly bile flow rate.     

Comparative effects of synthetic and natural secretin on pancreatic secretion and on secretin,insulin, and glucagon levels in man

The effect of synthetic secretin (Roche) on exocrine pancreatic secretion and on secretin, insulin, and glucagon levels was determined and compared with that of pure natural porcine secretin (GIH, Karolinska Institutet, Stockholm) in 10 healthy volunteers. The two secretin preparations were found to be equipotent. Equipotency applies to pancreatic secretion and to secretin and insulin plasma levels, whereas the plasma levels of glucagon were not affected by either drug. It is concluded that this synthetic secretin preparation is suitable for clinical and research purposes.     

Effect of theophylline on glucagon and secretin stimulated bile flow

This experiment was performed to determine the effect of theophylline on glucagon and secretin stimulated bile flow. We intended to determine the effect of theophylline, a proposed stimulant of canalicular bile flow, on the bile flow response produced by well-recognized stimulants of canalicular (glucagon) and ductular (secretin) bile flow. Dogs with chronic bile fistulas were used. Dose-response curves for glucagon and secretin were produced by administration of a wide range of glucagon and secretin doses. The effect of 20 mg/kg/hr theophylline on the dose-response curves was determined. Theophylline significantly increased the bile flow and bile electrolyte changes produced by glucagon at low doses but not at maximal doses of glucagon for stimulation of bile flow. Theophylline significantly increased bile volume and bile electrolyte changes at all doses of secretin, including maximal doses. These results suggest that theophylline and glucagon, both purported to be stimulants of canalicular bile flow in dogs, utilize the same receptor mechanism to stimulate bile flow. The effects of secretin, a proposed ductular stimulant, are potentiated by theophylline. On a functional basis, it is possible that there are separate canalicular and ductular loci of hormone action in stimulation of bile secretion.     

Effects of galanin on insulin and glucagon secretion in the rat

Galanin-like immunoreactivity has been visualized in nerve fibers in the islets of Langerhans, suggesting an involvement of galanin in the neural regulation of islet function. In this study, we investigated the effects of galanin on basal and stimulated insulin and glucagon secretion by infusing the peptide at three different dose rates in rats. We also studied the direct effect of galanin on insulin secretion from freshly isolated rat islets. At 320 pmol/kg/min, but not at 20 or 80 pmol/kg/min, galanin lowered basal plasma insulin levels. In contrast, basal plasma glucagon levels were lowered by galanin already at 20 and 80 pmol/kg/min. Furthermore, galanin inhibited both glucose- and arginine-induced insulin release at all three dose levels, whereas arginine-induced glucagon release was not affected by galanin. Glucose-stimulated insulin secretion from isolated rat islets was dose-dependently suppressed by galanin (10^-6-10^-8M). Therefore, it is concluded that galanin in rats inhibits insulin secretion, both in vivo and in vitro, and that at lower dose levels, the peptide also inhibits basal glucagon release.     

Effects of galanin on insulin and glucagon secretion in the rat

Galanin-like immunoreactivity has been visualized in nerve fibers in the islets of Langerhans, suggesting an involvement of galanin in the neural regulation of islet function. In this study, we investigated the effects of galanin on basal and stimulated insulin and glucagon secretion by infusing the peptide at three different dose rates in rats. We also studied the direct effect of galanin on insulin secretion from freshly isolated rat islets. At 320 pmol/kg/min, but not at 20 or 80 pmol/kg/min, galanin lowered basal plasma insulin levels. In contrast, basal plasma glucagon levels were lowered by galanin already at 20 and 80 pmol/kg/min. Furthermore, galanin inhibited both glucose- and arginine-induced insulin release at all three dose levels, whereas arginine-induced glucagon release was not affected by galanin. Glucose-stimulated insulin secretion from isolated rat islets was dose-dependently suppressed by galanin (10(-6)-10(-8) M). Therefore, it is concluded that galanin in rats inhibits insulin secretion, both in vivo and in vitro, and that at lower dose levels, the peptide also inhibits basal glucagon release.     

Effect of secretin and somatostatin on secretion of epidermal growth factor from brunner's glands in the rat

The effect of secretin and somatostatin on secretion of epidermal growth factor (EGF) from Brunner's glands was investigated in rats. Secretin increased volume secretion and the median output of EGF rose from 720 fmol/5 hr (total range 460–1320) in controls to 2065 fmol/5 hr (total range 1560–2730) at a dose of 50 pmol/kg/hr of secretin. Somatostatin inhibited Brunner's gland secretion, but the total output of EGF remained unchanged. Secretin-stimulated volume secretion and secretion of EGF was significantly reduced by simultaneous infusion of somatostatin. This study has shown that secretin stimulates secretion of EGF as well as volume secretion from Brunner's glands. Somatostatin prevents the effect of secretin on Brunner's glands, which suggests a role for somatostatin in control of Brunner's gland secretion.     

Effect of lipids on glucagon secretion in man

Animal experiments have suggested a FFA control mechanism for glucagon secretion. In man, the potent effect of FFA on HGH secretion and the similarity of the secretory control mechanisms for HGH and IRG also support a role of FFA in IRG secretion. Our studies in man in which plasma FFA were elevated by either an oral lipid emulsion (Lipomul) or an intravenous lipid suspension (Intralipid) suggest only a minor role of lipids in control of IRG secretion. Plasma FFA and triglyceride elevations did not suppress arginine- or hypoglycemia-induced plasma IRG elevations, but an inhibitory effect of Intralipid on basal plasma IRG concentrations was observed. Although nicotinic acid administration, which caused a depression in plasma FFA, did elevate plasma IRG, the IRG elevation was considered more likely a consequence of stress induced by the drug. The failure of lipids to inhibit IRG secretion at FFA concentrations inhibiting HGH secretion indicates a dissociation in the secretory control mechanisms of the two hormones.     

Effect of oleic acid on arginine-induced glucagon secretion by the isolated perfused rat pancreas

Summary The isolated perfused rat pancreas was used to investigate the effect of oleic acid on glucagon secretion in response to 10 mmol/l arginine. In the absence of oleic acid and at 2.5 mmol/l calcium, arginine induced a biphasic glucagon secretion. At lower extracellular calcium concentration (1.0 mmol/l), the second phase of glucagon release was reduced, the first phase being unchanged. In the presence of 1,500 μmol/l oleic acid, the glucagon response to arginine was also biphasic, but second phase release was markedly inhibited, the first phase glucagon release being unchanged. Such an effect was not obtained when oleic acid concentration in the medium was 750 μmol/l. These results demonstrate that high concentrations of oleic acid inhibit glucagon secretion in response to arginine from the isolated perfused rat pancreas and support the concept that circulating free fatty acid levels are involved in the control of glucagon secretion. Presented in part at the 13th Annual Meeting of the European Association for the Study of Diabetes, Geneva, 28–30 September, 1977, and published in abstract form in Diabetologia13, 386, 1977.     

Effect of secretin on basal- and glucose-stimulated insulin secretion in man

Summary Plasma immunoreactive secretin and insulin concentrations were measured in fasting normal humans after intraduodenal infusions of hydrochloric acid, isotonic or hypertonic glucose. The effect of intraduodenal acidification or intravenous bolus injections of secretin on plasma insulin concentrations during infusions of glucose was also examined. The intraduodenal glucose load did not cause an increase in plasma secretin concentrations. Secretin concentrations rose after acid both in the fasting state and during infusions of glucose. A concomitant rise in insulin levels was however only observed during infusions of glucose. Intravenous injection of secretin in a dose which mimicked the response to intraduodenal acidification was without effect on the glucose-stimulated insulin release, while a 30 times higher dose caused a highly significant augmentation of the insulin release. The insulin response pattern to this high dose of secretin differed completely from that observed after intraduodenal infusion of acid. It is concluded and confirmed that the stimulating effect of secretin on insulin secretion is pharmacological and that secretin plays no significant role in the entero-insular axis.     

Effect of intraduodenal oligopeptide on rat pancreatic exocrine secretion and release of secretin and CCK]

We investigated whether intraduodenal (id) oligopeptide with three or four amino acids residues (pH 7.0) stimulates pancreatic exocrine secretion and release of endogenous plasma secretin and CCK in anesthetized rats. Id administration of oligopeptides in three doses (25, 100, 400 mg/hr) at a speed of 4 ml/hr resulted in dose-related increases in pancreatic secretion of pancreatic juice volume, bicarbonate, and amylase outputs (r = 0.598, 0.673, and 0.426, P less than 0.05 -- 0.001), and plasma concentrations of secretin and CCK (r = 0.743, 0.425, P less than 0.001 and 0.05). Intravenous administration of CCK-antagonist, CR1505 (5 mg/kg.hr) markedly inhibited oligopeptide-stimulated amylase output, but did not affect pancreatic juice volume and bicarbonate output. These results suggest that id oligopeptide increases pancreatic exocrine secretion and releases endogenous secretin and CCK.