Comparative effects of amylin and cholecystokinin on food intake and gastric emptying in rats

CCK is a physiological inhibitor of gastric emptying and food intake. The pancreatic peptide amylin exerts similar actions, yet its physiological importance is uncertain. Objectives were to compare the dose-dependent effects of intravenous infusion of amylin and CCK-8 on gastric emptying and food intake in rats, and to assess whether physiological doses of amylin are effective. Amylin and CCK-8 inhibited gastric emptying with mean effective doses (ED(50)s) of 3 and 35 pmol x kg(-1) x min(-1) and maximal inhibitions of 60 and 65%, respectively. Amylin and CCK-8 inhibited food intake with ED(50)s of 8 and 14 pmol x kg(-1) x min(-1) and maximal inhibitions of 78 and 69%, respectively. The minimal effective amylin dose for each effect was 1 pmol x kg(-1) x min(-1). Our previous work suggests that this dose increases plasma amylin by an amount comparable to that produced by a meal. These results support the hypothesis that amylin acts as a hormonal signal to the brain to inhibit gastric emptying and food intake and that amylin produces satiety in part through inhibition of gastric emptying.     

Inhibition of satiety by a cholecystokinin antagonist is independent of gastric emptying

The ability of a cholecystokinin antagonist Proglumide to inhibit satiety induced by intraperitoneal injections of cholecystokinin octapeptide (CCK-OP) and bombesin was examined in rats equipped with chronic gastric cannulae. Both CCK-OP and bombesin significantly suppressed sham feeding. Proglumide administered alone did not alter sham feeding but it abolished the suppression of feeding induced by CCK-OP. In contrast, Proglumide did not inhibit the effect of a low dose of bombesin, but partially inhibited satiety induced by a high dose of bombesin, thus confirming our previous findings. These results indicate that the effect of Proglumide is independent of its recently described effects on gastric emptying in rat.     

Effects of cefaclor on gastric emptying and cholecystokinin release in healthy humans

Background and aimsIn rodents, cephalosporin antibiotics can mimic peptones and stimulate release of cholecystokinin (CCK), a hormone that slows gastric emptying. The rate of gastric emptying is a major determinant of postprandial blood glucose and insulin concentrations. We therefore evaluated the effect of orally administered cefaclor on plasma CCK and gastric emptying, as well as postprandial glycemic and insulinemic responses, in healthy humans.Materials and methodsWe studied 8 healthy subjects on two days in double-blind, randomized order. On each day, subjects consumed 1000 mg cefaclor or placebo 30 min before a mashed potato meal labeled with ¹³C octanoic acid. Blood and breath samples were collected for 4 h after the meal.ResultsBlood glucose, serum insulin and plasma CCK increased in response to the carbohydrate meal on both study days, and cefaclor had no effect on these responses. Similarly, the gastric half-emptying time (measured by breath test) did not differ (placebo: 137.5 ± 6.0 min vs. cefaclor: 143.1 ± 8.0 min).ConclusionCefaclor, when given before a meal in the form of a capsule, does not stimulate CCK release or slow gastric emptying in healthy humans.     

Effect of cholecystokinin octapeptide and somatostatin on the motility of guinea pig and canine gallbladder

Species differences have been observed in the effect of cholecystokinin octapeptide (CCK OP) on the canine and guinea pig gallbladder smooth muscle motility. 1. CCK OP was more potent stimulant in canine than in guinea pig gallbladder smooth muscles. Its pD2 values were 10 and 9.2, respectively. 2. The acetylcholine (10(-4) M)-induced maximum contractions in canine gallbladder muscle strips were by 50% lower as compared to the CCK OP (10(-8) M) maximum responses while in guinea pig gallbladder muscle strips the acetylcholine (ACh) maximum responses were by 20% lower than the CCK OP maximum responses. 3. CCK OP increased [3H]ACh release by 27% in canine gallbladder and by 40% in guinea pig gallbladder. 4. Somatostatin (SOM) had not any direct myogenic effect in guinea pig and canine gallbladder but it decreased [3H]ACh release from gallbladder intrinsic cholinergic neurons.     

Effect of the secretin family of peptides on gastric emptying and small intestinal transit in rats

We have compared the effects of the secretin family of peptides and their synthetic fragments on gastric emptying (GE) and small intestinal transit (SIT) using an unanesthetized rat model which simultaneously measures the GE and SIT of both solids and liquids. The meal consisting of 5% polyethylene glycol w/v, 5% Indian ink v/v and 20 non-digestible plastic beads was given intragastrically 10 minutes after the intraperitoneal injection of 0.5 ml of saline or peptides (2 and 5 micrograms/kg). Plasma secretin and the immunospecificity of secretin fragments were determined. In control rats, the t1/2 for the GE of both solids and liquids were 56 +/- 3.8 and 19 +/- 2.3 minutes, respectively. Liquids emptied faster than the solids and liquids travelled ahead of the solids in the intestine. Secretin (5 micrograms/kg) inhibited GE of both solids and liquids by 33-37%. Secretin delayed the SIT of the meal by approximately 35%. Fragments of secretin and of VIP had no effect on GE and SIT of both solids and liquids. The whole molecule of secretin was required to inhibit GE and to delay SIT of solids and liquids. Glucagon, PHI and growth hormone releasing factor (GHRF1-44) inhibited GE and SIT of both solids and liquids. For all peptides tested, the inhibition of SIT was proportional to the inhibition of GE suggesting that the prolongation of SIT was secondary to delayed GE. These observations indicate that the peptides of the secretin family inhibit GE and prolong SIT. Thus, the structural requirement required for the secretin family of peptides to effect their motor actions on the stomach is similar to that required for pancreatic enzyme secretion.     

The role of secretin in the control of gastric secretion and emptying in the dog

It is well established that duodenal acidification strongly inhibits gastric acid secretion, gastric emptying rate and gastrin release. These effects are at least partly mediated via hormonal pathways, but it is not known whether they are mediated by the release of one peptide named in the past enterogastrone, or by several peptides acting together. The effects of duodenal acidification on gastric acid secretion and gastrin release can be reproduced by infusion of small doses of secretin and plasma secretin levels increase during duodenal acidification or after a meal. This peptide is thus the most probable candidate as an enterogastrone. It has however never been clearly shown that administration of low doses of secretin do decrease gastric emptying rate as well as acid secretion. Experiments were performed on four dogs with gastric fistulas. A peptone solution was infused into the stomach. The experiments were repeated during infusion of synthetic secretin. Our results indicate that infusion of low doses of secretin reproduce all the effects of duodenal acidification: a significant inhibition of gastric acid secretion, gastrin release and gastric emptying rate.     

糖尿病大鼠弓状核-海马肥胖抑素通路构成及对胃运动和胃排空的影响

目的: 探究糖尿病大鼠弓状核(ARC)-海马肥胖抑素(obestatin)神经通路构成,以及该通路对大鼠胃运动、胃排空的影响。方法: 健康雄性Wistar大鼠采用果糖溶液诱导胰岛素抵抗加腹腔注射链脲佐菌素的方法制备糖尿病模型,造模之后,随机分为5组:对照组(NS组)、0.1、1和10 pmol obestatin组、obestatin+NBI27914组,每组7只;各组通过置管分别向海马内注射0.5 μl 生理盐水(NS)、obestatin(0.1 pmol、1 pmol、10 pmol)和混合液(10 pmol obestatin + 60 pmol NBI27914),给药后立即记录大鼠胃运动,15 min后进行胃排空研究;通过荧光金(FG)逆行追踪及免疫组化方法比较正常及糖尿病大鼠ARC-海马obestatin神经通路构及ARC obestatin mRNA表达的异同。结果: 与正常大鼠相比,糖尿病大鼠ARC FG/obestatin双标神经元数目显著减少(P＜0.05),ARC obestatin mRNA表达量显著下降(P＜0.05);obestatin各组可剂量依赖性的抑制大鼠胃运动及胃排空(P＜0.05~0.01),obestatin的这些效应可被促肾上腺皮质激素受体1(CRFR1)阻断剂NBI27914部分阻断(P＜0.05);obestatin对糖尿病大鼠胃运动和胃排空的抑制效应显著减弱(P＜0.05)。结论: ARC-海马之间存在obestatin神经和功能通路,参与糖尿病大鼠胃运动及胃排空调控,且CRFR1信号通路参与该过程。该通路功能的减弱可能参与了糖尿病早期胃动力紊乱的发病。     

The effect of extragastric vagotomy on gastric emptying and motility of the small intestine

Selective parasympathetic denervation of small and some large intestine has been performed in dogs. Chronic experiment on these dogs has revealed that this operation: has no effect on frequency and amplitude of intestine contractions during the first phase of the digestive process but it is accompanied by significant relaxation of the motor intestine activity in the second phase, causes a retardation of the rate of evacuation from stomach by 56.0% in dogs subjected to extragastric vagotomy as well as pH of chyme in the duodenum by 1-1.5 units above the norm.     

Species-specific effects of bombesin on gastric emptying and neurohypophyseal secretion

Previous reports have demonstrated that systemic injection of cholecystokinin (CCK) in rats produces dose-related decreases in food intake, increases in neurohypophyseal secretion of oxytocin (OT), and decreases in gastric emptying. The present studies determined whether systemic injection of bombesin (BBS), another peptide that potently reduces food intake in rats, had similar effects on OT secretion and gastric emptying. Although BBS produces a dose-dependent inhibition of food intake, even very high doses did not significantly affect plasma OT levels and only slightly decreased rates of gastric emptying. Consequently, despite their similar inhibitory effects on food intake, BBS does not appear to activate the same network of central nervous system pathways as does CCK in rats. However, parallel studies in monkeys demonstrated that systemic injection of BBS was effective in stimulating neurohypophyseal secretion of vasopressin rather than OT, in a pattern both qualitatively and quantitatively analogous to the effects of CCK in this species. Together with previous findings that BBS more potently inhibits gastric emptying in primates than in rats, these results therefore also suggest the presence of significant species differences in the central mechanisms by which BBS acts to reduce food intake.     

Effect of cholecystokinin, secretin, and gastric inhibitory polypeptide on insulin release from the isolated perfused rat pancreas

The actions of gastric inhibitory polypeptide (GIP) on insulin release from the isolated perfused rat pancreas were compared with those of pure secretin and cholecystokinin (CCK). At dose levels physiologically achievable for GIP (1 ng/mL perfusate), infusions of CCK stimulated significant insulin release both on a weight (1 ng/mL) and a molar (770 pg/mL) basis. Although 50% as potent as GIP on a weight basis and 43% as potent on a molar basis, the insulin response to CCK was multiphasic and sustained for the duration of the infusion. The action of CCK, like that of GIP, was glucose dependent yielding no significant insulin release at a low perfusate glucose concentration (80 mg/dL). Irrespective of perfusate glucose concentration or dose (1 or 5 ng/mL), secretin failed to stimulate significant release of insulin from the perfused pancreas. It was concluded that secretin is ineffective as an incretin and that a physiological role for CCK in an enteroinsular axis awaits accurate measurement of circulating levels of immunoreactive CCK.     

Effects of cholecystokinin octapeptide and somatostatin on the motility and release of [3H]acetylcholine in canine colon

1. The longitudinal and circular muscle layers of canine colon showed a different pattern of mechanical activity: regular rhythmic phasic contractions in the circular strips and irregular rhythmic prolonged contractions in the longitudinal strips.2. The spontaneous motility of both layers was suppressed by atropine (1 μM) or hexamethonium (1 μM), suggesting the involvement of ACh.3. Somatostatin (1 nM–1μM) decreased, while CCK8 (1–10 nM) increased the spontaneous and electrically-induced contractions of the colonic muscles, the circular layer being more sensitive as compared to the longitudinal layer.4. CCK8 enhanced both resting and electrically-induced [³H]ACh release, while SOM inhibited the electrically-stimulated [³H]ACh release.     

Effects of cholecystokinin, secretin, and pancreatic polypeptide on secretion of gastric inhibitory polypeptide, insulin, and glucagon

Although the capacity of food components to cause more insulin secretion when given orally than when given intravenously is related significantly to increased plasma concentration of gastric inhibitory polypeptide (GIP), stimulated only by the oral route, questions arise as to what extent other gastrointestinal hormones modify insulin secretion either directly or by influencing the secretion of GIP. The triacontatriapeptide form of cholecystokinin (CCK₃₃), infused in dose gradients intravenously in dogs increases insulin secretion, and comparably to equimolar doses of the carboxy-terminal octapeptide of cholecystokin (CCK₈); neither compound changes fasting plasma levels of GIP or glucose. Glucagon was increased only by the largest dose of CCK₈ (0.27 ug/kg). Unlike the situation with GIP, it is not necessary to increase the plasma glucose above fasting level to obtain the insulin-releasing action of CCK. When glucose is infused intravenously (2 g in 0.5 min) at the beginning of a 15-minute infusion of CCK₈ (10 ng/kg/min), the amount of insulin release is greater than is produced by CCK₈ or glucose alone. In the same type of experiment, the infusion of GIP, in equimolar amounts as CCK₈, plus glucose causes no more insulin secretion than is stimulated by glucose alone. Secretin has only a small stimulating action on insulin release, and pancreatic polypeptide (PP) has no effect. Neither secretin nor PP affects GIP secretion, whether either is given alone, or together, or with CCK₈. Either secretin or CCK₈ inhibits oral glucose-stimulated increase in plasma GIP. These inhibitory effects are probably very much related to the hormone-induced decrease in gastric emptying, but changes in somatostatin secretion and other hormones possibly exert contributory actions. In conclusion, GIP in certain dose ranges has been reported to cause major increase in insulin secretion, but we showed that the insulin-releasing action of a small dose of glucose (2 g) infused intravenously was not augmented by GIP (44.5 ng/kg/min), although it was significantly increased by an equimolar dose of CCK₈. When plasma glucose was maintained at a fasting level, gradient equimolar dosages of CCK₈ and CCK₃₃ had comparable insulin-releasing action; GIP had no effect.     

Oral administration of Tyr-MIF-1 stimulates gastric emptying and gastrointestinal motility in rodents.

The effects of orally administered Tyr-MIF-1, an agonist of an endogenous antiopiate system, were examined on gastric emptying in mice and gastrointestinal myoelectric activity in rats. Tyr-MIF-1 (5 mg/kg in mice, 20 mg/kg in rats) accelerated gastric emptying of a methylcellulose test meal, increased the frequency of antral spike bursts, and disrupted intestinal migrating myoelectric complexes. These effects were reproduced by a subcutaneous administration of Tyr-MIF-1 at the same dosage. They were blocked by naloxone (1 mg/kg) but not by the kappa receptor subtype antagonist MR 2266 (1 mg/kg). The GABAA antagonist bicuculline (0.5 mg/kg), but not the GABAB antagonist 2-hydroxysaclofen (4 mg/kg), also antagonized the effects of Tyr-MIF-1. These data demonstrate that oral Tyr-MIF-1 stimulates gastric emptying and gastrointestinal motility through a systemic or central action that involves opioid and GABA systems.     

Effects of pancreatic polypeptide on the pancreatic exocrine secretion stimulated by secretin and cholecystokinin in the conscious pig

Fourteen castrated male Large White pigs, weighing 42.5 +/- 1.0 kg, were fitted with pancreatic and duodenal fistulae for pancreatic secretion studies. Moreover, catheters were placed in a carotid artery for blood sampling and in a jugular vein for peptide infusion. Pancreatic juice was automatically restituted to the animals and continuously sampled for analysis on experimental days. Following an 8-day recovery period, perfusion studies were performed after an overnight fast. After a 30-min basal period, sustained pancreatic flow and protein output were obtained and maintained throughout the assay with secretin (36 pmol/kg/h) and CCK-8 (600 pmol/kg/h) infusion. Then, 200, 400, 600, 800 or 1200 pmol/kg/h of porcine pancreatic polypeptide (PP) were infused for 60 min. Secretin + CCK infusion was continued for 1 h after PP infusion was stopped. Each dose of PP was given on a separate day. Neither pancreatic flow nor bicarbonate output were affected whatever the dose of infused PP. On the contrary, protein concentration and output decreased with the lowest dose of PP (200 pmol/kg/h) and the diminution was more pronounced with the other doses. With 600 pmol/kg/h as well as with 800 and 1200 pmol/kg/h of PP, pancreatic protein output fell to about 20% of values obtained with secretin + CCK. Plasma levels of PP were below or similar to postprandial values for 200, 400 and 600 pmol/kg/h and they were significantly larger with 800 and 1200 pmol/kg/h. Protein concentration and output returned to values obtained with secretin + CCK infusion after cessation of PP infusion. In conclusion, porcine PP given in physiological doses to the pig decreases pancreatic protein output whereas pancreatic flow remains unaffected.     

Effect of acute hyperglycemia on basal, secretin and secretin + cholecystokinin stimulated exocrine pancreatic secretion in humans

Pancreatico-biliary secretion is reduced during acute hyperglycemia. We investigated whether alterations in pancreatico-biliary flow or volume output are responsible for the observed reduction in duodenal output of pancreatic enzymes and bilirubin during hyperglycemia. Eight healthy subjects were studied on two occasions during normoglycemia and hyperglycemia (15 mmol/l). Pancreatico-biliary output was measured by aspiration using a recovery marker under basal conditions (60 min), during secretin infusion (0.1 CU/kg.h) for 60 min and during secretin + CCK (0.5 IDU/kg.h) infusion for 60 min. Secretin was infused to stimulate pancreatico-biliary flow and volume output. Secretin significantly (P<0.005-P<0.05) increased volume and bicarbonate output and CCK significantly (P<0.01) increased the output of bilirubin, pancreatic enzymes, bicarbonate and volume, both during normoglycemia and hyperglycemia. During hyperglycemia basal, secretin stimulated and secretin + CCK stimulated total pancreatico-biliary output were significantly (P<0.005-P<0.05) reduced compared to normoglycemia. The incremental outputs, however, were not significantly different between hyper- and normoglycemia. Pancreatic volume output was significantly (P<0.05) reduced during hyperglycemia compared to normoglycemia under basal conditions (31+/-16 m/h versus 132+/-33 m/h) during secretin infusion (130+/-17 ml/h versus 200+/-34 m/h) and during secretin + CCK infusion (370+/-39 ml/h versus 573+/-82 ml/h). Plasma PP levels were significantly (P<0.05) reduced during hyperglycemia. It is concluded that 1) hyperglycemia significantly reduces basal pancreatico-biliary output 2) the incremental pancreaticobiliary output in response to secretin or secretin + CCK infusion is not significantly affected during hyperglycemia, 3) a reduction in volume output contributes to the inhibitory effect of hyperglycemia on pancreatico-biliary secretion, 4) hyperglycemia reduces PP secretion suggesting vagal-cholinergic inhibition of pancreatico-biliary secretion and volume during hyperglycemia.     

卵巢激素调节大鼠胃运动及感觉功能的机制

女性患者在孕期及月经周期的黄体期常有腹痛、腹胀及腹泻等胃肠道功能紊乱的症状.本文探讨雌二醇（estradiol benzoate,EB）和孕酮（progesterone,P4）对卵巢切除大鼠血浆胆囊收缩素（cholecystokinin,CCK）及胃组织内胆囊收缩素受体A（CCKA）、血浆降钙素基因相关肽（calcitonin gene-related peptide,CGRP）及胃组织内其受体表达水平的影响,以期阐明卵巢激素调节胃肠道运动及感觉功能的机制.给予卵巢切除大鼠EB和P4替代治疗,用放射免疫分析法测定血浆CCK、CGRP的浓度,用Western blot法检测胃组织内CCKA受体的表达量,用125I-CGRP放射配体结合分析法测定胃组织内CGRP受体的表达量.EB可以升高血浆CCK的浓度,同时引起胃组织内CCKA受体表达增高.P4对血浆CCK的浓度以及胃组织内CCKA受体的表达无明显影响,但P4可以升高血浆CGRP的浓度,上调胃组织内CGRP受体的活性.EB、P4联合作用升高血浆CCK、CGRP的浓度,增加胃内CCKA、CGRP受体的表达.因此EB通过促进CCK的分泌以及上调胃内CCKA受体的表达,抑制胃排空;而P4可以通过增加CGRP的释放上调胃内CGRP受体的活性,从而增加肠神经系统对外来刺激的敏感性.结果提示,可以利用CCKA、CGRP受体的拈抗剂治疗女性患者中与月经周期有密切关系的胃肠道功能紊乱症状,如腹胀、早饱、腹痛等.