Effect of splanchnectomy on jejunal motility and fos expression in brain stem after intestinal anaphylaxis in rat

This study was to determine whether alterations in jejunal motility observed after antigen challenge of sensitized rats occurred after extirpation of the celiac-superior mesenteric ganglia. Hooded-Lister rats were prepared with an intact or extirpated celiac-superior mesenteric ganglion, an isolated Thiry-Vella loop of ileum for instillation of antigen, and jejunal electrodes for myoelectric recording. Animals were sensitized by injection of 10 microg egg albumin (EA, ip), and specific anti-EA IgE titers were determined to be >1:64. In both control and splanchnectomized rats, normal fasting migrating myoelectric complexes (MMC) were observed before challenge with EA. MMCs were disrupted, and diarrhea was observed immediately after EA challenge of control but not splanchnectomized animals. Brain stems were removed and processed for Fos immunoreactivity. The absence of perivascular neuropeptide Y immunoreactivity in the submucosa was used to confirm the success of splanchnectomy. The number of Fos-immunoreactive neuronal nuclei was significantly reduced in the brain stem after splanchnectomy. Thus the mesenteric sympathetic ganglia are an integral part of the extramural neuronal pathways required for altered motility in this model of intestinal anaphylaxis.     

The effect of food protein-induced intestinal anaphylaxis on rate of transit

The aim of this study was to determine if the altered jejunal motility previously demonstrated in this animal model of food protein-induced intestinal anaphylaxis is (a) a localized (the jejunal site of challenge), or a generalized response of the small intestine, and (b) associated with more rapid aboral transit of intraluminal contents. Hooded-Lister rats, 100-150 g in weight, were sensitized by intraperitoneal injection of 10 micrograms egg albumin. Control rats were sham-sensitized. On day 7 rats were surgically prepared with six bipolar electrodes from duodenum to ileum and (or) a jejunostomy tube was positioned at the ligament of Treitz. On day 14, after an 18-h fast, recording of myoelectric activity were obtained from four sensitized animals with electrodes from duodenum to ileum during a control period for 45 min after saline challenge and for 45 min after antigen challenge. Control (n = 25) and sensitized (n = 31) animals with only a jejunostomy had Na2 51CrO4 instilled through the jejunostomy in 0.5 mL of saline, with or without egg albumin, either during a fast or after a standard meal. Propulsion of isotope through the small bowel was allowed to progress for 15 min, the animals were sacrificed, and their gut was removed for division into eight equal segments of small intestine, cecum, and remaining colon. The radioactivity of each segment was determined in a gamma counter.(ABSTRACT TRUNCATED AT 250 WORDS)     

The effect of gastric inhibitory polypeptide on intestinal glucose absorption and intestinal motility in mice

Gastric inhibitory polypeptide (GIP) is released from the small intestine upon meal ingestion and increases insulin secretion from pancreatic β cells. Although the GIP receptor is known to be expressed in small intestine, the effects of GIP in small intestine are not fully understood. This study was designed to clarify the effect of GIP on intestinal glucose absorption and intestinal motility. Intestinal glucose absorption in vivo was measured by single-pass perfusion method. Incorporation of [¹⁴C]-glucose into everted jejunal rings in vitro was used to evaluate the effect of GIP on sodium-glucose co-transporter (SGLT). Motility of small intestine was measured by intestinal transit after oral administration of a non-absorbed marker. Intraperitoneal administration of GIP inhibited glucose absorption in wild-type mice in a concentration-dependent manner, showing maximum decrease at the dosage of 50 nmol/kg body weight. In glucagon-like-peptide-1 (GLP-1) receptor-deficient mice, GIP inhibited glucose absorption as in wild-type mice. In vitro examination of [¹⁴C]-glucose uptake revealed that 100 nM GIP did not change SGLT-dependent glucose uptake in wild-type mice. After intraperitoneal administration of GIP (50 nmol/kg body weight), small intestinal transit was inhibited to 40% in both wild-type and GLP-1 receptor-deficient mice. Furthermore, a somatostatin receptor antagonist, cyclosomatostatin, reduced the inhibitory effect of GIP on both intestinal transit and glucose absorption in wild-type mice. These results demonstrate that exogenous GIP inhibits intestinal glucose absorption by reducing intestinal motility through a somatostatin-mediated pathway rather than through a GLP-1-mediated pathway.     

The effect of gastric inhibitory polypeptide on intestinal glucose absorption and intestinal motility in mice

Holocarboxylase synthetase (HLCS) catalyzes the covalent binding of biotin to both carboxylases in extranuclear structures and histones in cell nuclei, thereby mediating important roles in intermediary metabolism, gene regulation, and genome stability. HLCS has three putative translational start sites (methionine-1, -7, and -58), but lacks a strong nuclear localization sequence that would explain its participation in epigenetic events in the cell nucleus. Recent evidence suggests that small quantities of HLCS with a start site in methionine-58 (HLCS58) might be able to enter the nuclear compartment. We generated the following novel insights into HLCS biology. First, we generated a novel HLCS fusion protein vector to demonstrate that methionine-58 is a functional translation start site in human cells. Second, we used confocal microscopy and western blots to demonstrate that HLCS58 enters the cell nucleus in meaningful quantities, and that full-length HLCS localizes predominantly in the cytoplasm but may also enter the nucleus. Third, we produced recombinant HLCS58 to demonstrate its biological activity toward catalyzing the biotinylation of both carboxylases and histones. Collectively, these observations are consistent with roles of HLCS58 and full-length HLCS in nuclear events. We conclude this report by proposing a novel role for HLCS in epigenetic events, mediated by physical interactions between HLCS and other chromatin proteins as part of a larger multiprotein complex that mediates gene repression.     

The tripeptide feG ameliorates systemic inflammatory responses to rat intestinal anaphylaxis

Background  

Food allergies are generally associated with gastrointestinal upset, but in many patients systemic reactions occur. However, the systemic effects of food allergies are poorly understood in experimental animals, which also offer the opportunity to explore the actions of anti-allergic drugs. The tripeptide D-phenylalanine-D-glutamate-Glycine (feG), which potentially alleviates the symptoms of systemic anaphylactic reactions, was tested to determine if it also reduced systemic inflammatory responses provoked by a gastric allergic reaction.     

The effect of prostacyclin on intestinal ion transport in the rat

The actions of PGI₂ and PGE₂ on electrically monitored ion transport in rat jejunum and colon have been determined both $\text{in vivo}$ and $\text{in vitro}$. Whilst PGE₂ was shown to induce a marked change in ion transport PGI₂ was relatively ineffective. The ability of the prostanoids to influence ion transport is related to their capacity to change mucosal cyclic AMP levels since in isolated small intestinal enterocytes PGE₂ caused a marked stimulation in cyclic AMP levels whilst PGI₂ had little effect. In colonic mucosal scrapes PGE₂ was more effective than PGI₂ in stimulating changes in cyclic AMP levels. It appears doubtful that PGI₂ plays a direct role in the regulation of intestinal ion transport.     

甘草对大鼠小肠动力功能影响的实验研究

目的:初步探讨甘草对大鼠小肠动力的作用,及其作用与胃肠激素的相关性.方法:观察甘草组与空白组移行性综肌电(MMC)周期持续时间、Ⅲ相持续时间、Ⅲ相每分钟快波数(FM)和每簇的快波数(FC)的变化;采用免疫组织化学法结合显微图像定量分析扫描系统检测十二指肠、空肠嗜铬细胞及其肌间神经丛中5-羟色胺(5-HT)、P-物质(SP)、血管活性肠肽(VIP)的相对含量.结果:①甘草组与空白组比较MMCⅢ相FM和FC明显减少,MMC周期明显延长,Ⅲ相持续时间明显缩短,统计有显著性差异(P＜0.05).②甘草组十二指肠、空肠粘膜及肌间神经丛内5-HT表达明显较空白组减少,比较有显著性差异,小肠粘膜无明显SP、VIP阳性免疫反映物表达,但小肠肌间神经丛内SP含量明显减少、VIP含量明显增加,组间比较有显著性差异(P＜0.05,P＜0.01).结论:甘草对大鼠小肠动力有抑制作用,这种抑制作用与5-HT、SP、VIP分泌失调密切相关.     

短链脂肪酸对肠道动力影响的研究进展

人体的肠道不仅仅是消化吸收场所,也是大量微生物生存的家园.肠道作为人体最大的储菌库,其多种生理功能离不开复杂多变的肠道菌群和菌群代谢物(如短链脂肪酸等)的参与.短链脂肪酸是肠道菌群发酵膳食纤维产生的一类重要的信号分子,研究发现短链脂肪酸除参与维持人体肠道黏膜免疫屏障、调节体液及电解质平衡以及为肠上皮细胞提供能量外,...     

The effect of vasoactive intestinal polypeptide (VIP) on the canine gallbladder motility.

1. VIP at doses of 10(-9) to 10(-8) M was ineffective and at doses of 5 x 10(-8) to 10(-7) M exerted a slight inhibitory effect on the tone of the canine gallbladder muscle strip. However, VIP (0.1-1 micrograms/kg) injected intravenously (i.v.) in conscious dogs dose-dependently decreased the gallbladder pressure. 2. VIP did not influence significantly the acetylcholine (ACh)- or carbachol- induced contractions of canine gallbladder under in vitro or in vivo conditions, but it decreased the electrically-induced, atropine-sensitive contractions of gallbladder muscle strips. 3. VIP (5 x 10(-9) to 5 x 10(-8) M) did not influence significantly the dose-response curve for cholecystokinin octapeptide (CCK OP) of canine and guinea-pig gallbladder muscle strips. VIP injected i.v. (0.1-0.5 micrograms/kg) in conscious dogs greatly decreased the CCK OP-induced gallbladder pressure.     

Involvement of dopamine in the central effect of neurotensin on intestinal motility in rats

The effects of intracerebroventricular (ICV) administration of neurotensin (NT) before a meal on intestinal postprandial motility were examined in conscious rats chronically fitted with intraparietal Nichrome electrodes in the duodeno-jejunum. The effects were compared with those of two analogues, [D-Tyr¹¹]NT and [D-Trp¹¹]NT, resistant to degradation by brain peptidases. NT (10 μg ICV) delayed the occurrence of postprandial disruption of duodenal motility and blocked it on the jejunum. [D-Tyr¹¹]NT and [D-Trp¹¹]NT (1 μg ICV) elicited the same effects but at a ten-fold lower dose. NT administered peripherally just before a meal significantly lengthened the duration of the postprandial motor pattern. The central effect of NT on the fed pattern involved dopaminergic neurons as it was mimicked by dopamine, blocked by haloperidol and partly antagonized by either sulpiride or (+) SCH 23390. It is concluded that: 1) both D₁ and D₂ receptors are involved in the blocking effect of the postprandial disruption induced by central NT; 2) that [D-Tyr¹¹]NT and [D-Trp¹¹]NT are potent agonists at NT receptors in the brain.     

The effects of mefenamic acid on postprandial intestinal carbohydrate metabolism

The effects of mefenamic acid on the food-induced changes in intestinal carbohydrate metabolism were determined in an attempt to elucidate the mechanism(s) by which inhibition of prostaglandin synthesis enhances the postprandial increases in intestinal blood flow and oxygen consumption. The data show that when the luminal perfusate was was changed from saline to a nutrient/bile solution, there was an increase in carbohydrate utilization, which was offset by absorption of glucose from the lumen. Intravenous administration of mefenamic acid significantly increased both carbohydrate absorption and metabolism when food was placed in the lumen. Changes in carbohydrate absorption and metabolism have been shown to play an important role in determining the magnitude of glucose induced changes in intestinal blood flow and oxygen consumption. Therefore, it is possible that the ability of mefenamic acid to enhance significantly the food-induced increases in blood flow and oxygen consumption may be due in part to its effects on intestinal carbohydrate absorption and utilization.     

The effects of mefenamic acid on postprandial intestinal carbohydrate metabolism

The effects of mefenamic acid on the food-induced changes in intestinal carbohydrate metabolism were determined in an attempt to elucidate the mechanism(s) by which inhibition of prostaglandin synthesis enhances the postprandial increases in intestinal blood flow and oxygen consumption. The data show that when the luminal perfusate was changed from saline to a nutrient/bile solution, there was an increase in carbohydrate utilization, which was offset by absorption of glucose from the lumen. Intravenous administration of mefenamic acid significantly increased both carbohydrate absorption and metabolism when food was placed in the lumen. Changes in carbohydrate absorption and metabolism have been shown to play and important role in determining the magnitude of glucose induced changes in intestinal blood flow and oxygen consumption. Therefore, it is possible that the ability of mefenamic acid to enhance significantly the food-induced increases in blood flow and oxygen consumption may be due in part to its effects on intestinal carbohydrate absorption and utilization.     

Motilin and the postprandial motility of the antrum.

This study was designed to establish whether the rise in plasma motilin observed after a meal in humans can influence the postprandial motor activity of the antrum. Antroduodenal postprandial motility profiles and indices obtained from 5 controls and 5 subjects infused with exogenous synthetic motilin (0.1 microgram.kg-1) or with the motilin receptor agonist erythromycin lactobionate (200 mg) were compared. Motilin infusion increased plasma motilin concentrations about 5 times above the physiological range but failed to modify the normal postprandial contractile response. On the other hand, in 4 of the 5 subjects, erythromycin induced an intense motor response that mimicked phase III of the migrating motor complex. Our study demonstrates that, during the postprandial period, motilin antral receptors can be stimulated only with doses of motilin exceeding the physiological plasma concentrations, and that the motor effect obtained did not mimic the usual postprandial motility pattern. Our results, therefore, do not support the proposal that the postprandial motility of the antrum is regulated by the plasma levels of motilin.     

Concentration effect of soluble dietary fibers on postprandial glucose and insulin in the rat

The effects of different soluble fibers on blood glucose and insulin responses to voluntary meals in the rat were investigated. Rats (165-180 g) were adapted for 2 weeks to a fiber-free control diet or fiber diets made by dilution of the fiber-free diet with the fiber. Fibers and concentrations used were carboxymethylcellulose (1.25, 2.5, and 5%), guar gum, oat beta-glucan (2.5, 5, and 7.5%), and mustard mucilage (5, 10, and 15%) as the soluble fibers, and cellulose (20%) as the insoluble fiber. Meal challenges (0.75 g/100 g body weight offered for consumption within a period of 15 min) were made with the adaptation diet. Soluble fibers reduced food intake and growth with a concentration effect, while cellulose increased food intake. All fibers reduced dry matter and nitrogen digestibilities but had no effect on the protein efficiency ratio. Only carboxymethylcellulose (at 5%) reduced postprandial glycemia at 30 min (p less than 0.05). Cellulose had no effect on plasma insulin which was markedly reduced with a concentration effect by all soluble fibers (except mustard mucilage) in the following decreasing order: carboxymethylcellulose, guar gum, beta-glucan, and mustard mucilage. The effect of fibers seemed closely related to the viscosity of fiber solutions in the presence of the diet ingredients. The present findings demonstrate the positive effect of fibers on postprandial insulinemia but with only a slight effect on glycemia. They indicate that the physicochemical interaction of the fibers with other dietary ingredients is important.     

The effect of estradiol on isolated rat uterine motility and on prostaglandin generation

The motility of isolated uterine horns as well as the generation of PGE and PGF like material by the uterus from estrus and spayed rats, treated or untreated with 17-beta estradicl, were studied. Following 40 minutes of mounting the spontaneous motility of uteri from estrus rats had a lower magnitude than that from spayed ones. The amount of PGF-like material was similar in both groups whereas the first one liberated less PGE-like substance. In spayed animals treated with 1 μg of 17-beta estradiol the decay of spontaneous contractile force was higher than that observed in untreated rats, and similar to that displayed by uteri from estrus. Less PGE-like material was liberated in comparison with spayed animals and a tendency to produce higher quantity of PGF-like compounds was observed, although the level was not significantly different. With 50 μg of 17-beta estradiol the spontaneous reduction of contractile activity was higher than in spayed animals and than in those treated with 1 μg. The amount of PGF-like material liberated was higher than in spayed rats and less PGE-like substance was generated comparing with spayed and 1 μg-treated animals. These findings show that estradiol decreases the release of PGE-like compound. It would also appear that this may have some relationship with the levels of spontaneous contractile activity of the isolated rat uterus.     

Peripheral versus central components of the effects of dermorphin on intestinal motility in the fed rat

The effects of subcutaneous (s.c.), intraperitoneal (i.p.), intrathecal (i.t.) and intracerebroventricular (i.c.v.) injection of dermorphin (DER) on intestinal myoelectrical activity were examined in fed rats with chronically implanted electrodes on the small and large bowel. DER s.c. restored the 'fasting' pattern of duodenal activity, i.e., the migrating myoelectric complex (MMC), corresponding to an inhibition by about 40% of the fed pattern for 120 min at a dose as small as 0.5 nM per rat. DER i.p. strongly inhibited (about 65%) the fed pattern for 120 min. A fasting pattern lasting 80 min, or a marked inhibition lasting 150 min were recorded after 0.5 nM DER i.t. or i.c.v., respectively. On the contrary, the colonic pattern of activity was inhibited by DER whatever the route used, although the duration of inhibition was different from each other. For both the small and large intestine, similar doses of DER were more efficient by i.c.v. than by i.t. routes, and by i.p. than by s.c. routes. A plurality of sites of action is suggested, including local receptors which are activated, particularly at the duodenal level by i.p. DER (0.5 nM). The supraspinal component of the immediate effects of i.c.v. DER (0.1 nM) were demonstrated by a preferential effect on the colon that was even more intense than after i.t. DER.