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.     

中药甘草对大鼠肠平滑肌运动的影响

目的观察甘草对大鼠肠道平滑肌运动的影响,了解甘草与胃肠运动之间的关系。方法实验分成正常组、甘草制成煎剂4．8、16、32、64g／kg剂量组,每日1次灌胃给药。末次给药1h后观察大鼠胃半排时间;采用灌胃给予炭末,测定胃推进率。结果甘草煎剂剂量大小对大鼠小肠蠕动有直接的影响,较小剂量对大鼠小肠的推进功能有抑制作用,较大剂量对大鼠的肠推进有促进作用。     

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.     

Electroacupuncture modulates the intestinal microecology to improve intestinal motility in spinal cord injury rats

Spinal cord injury (SCI) is a disease involving gastrointestinal disorders. The underlying mechanisms of the potential protective effects of electroacupuncture (EA) and 5-hydroxytryptamine (5-HT) system on SCI remain unknown. We investigated whether EA improves gut microbial dysbiosis in SCI and regulates the 5-HT system. 16S rDNA gene sequencing was applied to investigate alterations in the gut microbiome of the rats. Faecal metabolites and the expression of the 5-HT system were detected. EA and faecal microbiota transplantation (FMT) treatment facilitated intestinal transmission functional recovery and restored the colon morphology of SCI rats. The composition of the intestinal microbiota, including numbers of phylum Proteobacteria, class Clostridia, order Bacteroidales, and genus Dorea, were amplified in SCI rats, and EA and FMT significantly reshaped the intestinal microbiota. SCI resulted in disturbed metabolic conditions in rats, and the EA and FMT group showed increased amounts of catechin compared with SCI rats. SCI inhibited 5-HT system expression in the colon, which was significantly reversed by EA and FMT treatment. Therefore, EA may ameliorate SCI by modulating microbiota and metabolites and regulate the 5-HT system. Our study provides new insights into the pathogenesis and therapy of SCI from the perspective of microbiota and 5-HT regulation.     

Effects of intracerebroventricular administration of neurotensin,substance P and calcitonin on gastrointestinal motility in normal and vagotomized rats

The effects of intracerebroventricular (ICV) vs. intravenous (IV) injection of neurotensin, substance P and calcitonin on intestinal myoelectrical activity were examined in fed rats. ICV administered neurotensin and calcitonin restored the ‘fasted’ pattern of intestinal activity, i.e. the migrating myoelectric complex (MMC) at a dose as low as 12 and 0.2 pmol, respectively, whereas substance P only reduced significantly ($\text{P < 0.01}$) the duration of the postprandial pattern when injected ICV (48 pmol).Administered systemically at doses 100 times higher than the smallest active doses by the ICV route, calcitonin induced a fasted pattern, while neurotensin and substance P did not modify the fed pattern.The effects of ICV administration of neurotensin and calcitonin were abolished after vagotomy but the shortening effect of substance P on the duration of the postprandial pattern was still present.It is concluded that these three neuropeptides act centrally to control the pattern of intestinal motility in fed rats by shortening the ‘fed’ pattern for substance P and by restoring the MMC pattern for calcitonin and neurotensin, this last effect being mediated by the vagus.     

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.     

Central muscarinic control of the pattern of small intestinal motility in rats

The effects of central and peripheral administration of muscarinic agonists and antagonists on small intestinal motility were examined in conscious rats chronically fitted with electrodes implanted in the duodeno-jejunal wall and a cannula in a cerebral lateral ventricle. Intracerebroventricular (i.c.v.) administration of either atropine or pirenzepine at doses from 1 to 10 micrograms, 15 min before a 3 and 6 g lab chow meal significantly reduced the duration of the postprandial disruption of the migrating myoelectric complexes (MMC). The reduction was significantly greater for atropine, a mixed M1 and M2 muscarinic receptor antagonist, than for pirenzepine, an antagonist with a high affinity for M1 receptors. At a higher dose (10 micrograms) intra peritoneal (i.p.) administration of atropine or pirenzepine did not modify the postprandial disruption of MMC. Oxotremorine (10 ng) a M2 agonist, but not McNeil A343 (5 micrograms), a selective M1 agonist, given i.c.v. in fasted rats disrupted for 1.5 h the MMC pattern. At the same doses given i.p. oxotremorine and McNeil A343 disrupted the MMC for 15 and 45 min respectively. We conclude that the postprandial changes in the small intestinal motility involve muscarinic receptors, mainly of M2 subtype, at the level of the central nervous system.     

Further evidence that central neurotensin inhibits pituitary prolactin secretion by stimulating dopamine release from the hypothalamus

Intracerebroventricular (icv) injection of neurotensin (NT) (2 micrograms/rat) suppressed prolactin (PRL) release induced by L-5-hydroxytryptophan (1 mg/100 g body wt, iv), prostaglandin E2(1 microgram/rat, icv), and FK33-824 (10 micrograms/100 g body wt, iv), a Met5-enkephalin analog, in urethane-anesthetized or conscious rats. In contrast, NT did not suppress elevated plasma PRL levels sustained by a large dose of domperidone (10 micrograms/100 g body wt, iv), a peripheral dopamine antagonist. In in vitro experiments, NT (10(-5) M) stimulated dopamine release from perifused rat hypothalamic fragments. These results suggest that central NT inhibits PRL secretion by stimulating dopamine release from the hypothalamus into hypophysical portal blood in the rat.     

Cooperative effects of bombesin, substance P and methacholine on the release of intestinal neurotensin in rats.

The secretion of ileal neurotensin (NT) results from events occurring at the apical and basal side of the N-cells. The hypothesis of a functional relationship between cholinergic and peptidergic neurones with the N-cell was investigated in the present study utilizing the isolated vascularly perfused rat ileum. Intraarterial methacholine (MC, 10(-4) M) evoked a prompt and well sustained release of NT in the portal effluent (plateau value at 500% of basal). This effect was dose-dependent over the range of 10(-6) M to 10(-4) M. Bombesin (B) provoked a dose-dependent peak secretion of NT (800% of basal at 10(-7) M) followed by a rapid return to almost basal levels. The B-induced NT release remained unaltered upon 10(-6) M tetrodotoxin (TTX) or 10(-5) M atropine infusion. Substance P (SP) potently stimulated the release of NT. The maximal response, consisting of a sustained secretion, was observed at a concentration of 10(-7) M (350% of basal) while 10(-6) M SP induced a transient release. TTX or atropine did not reduce significantly the SP-induced secretion of NT. Neurokinin A and B did not increase NT concentrations in the portal effluent. B synergistically increased the secretion of NT induced by SP. Atropine or TTX did not modify the effect of combined SP and B infusion. MC potentiated the release of NT induced by B but not that evoked by SP. Combined infusion of SP, B and MC produced the largest output of NT. In conclusion, B, SP and MC are strong stimulants of NT release in rats. In addition, the cooperative effects of these transmitters argue in favor of a complex functional relationship between the intramural nervous network and the intestinal N-cells in rats.     

Somatostatin as a mediator of the effect of neurotensin on pentagastrin-stimulated acid secretion in rats

Neurotensin and somatostatin have both been shown to inhibit gastric acid secretion, but no interaction between these peptides has been demonstrated. To determine whether somatostatin might be a mediator of neurotensin's effect on pentagastrin-stimulated gastric acid secretion, we performed the following three experiments. First, we collected 0.2-ml samples of portal venous blood as frequently as every 5 min, and we confirmed a significant release of somatostatin-like immunoreactivity into portal venous blood during neurotensin-induced inhibition of acid secretion. This release of somatostatin-like immunoreactivity and inhibition of acid secretion were only seen in pentobarbital-anesthetized rats, but no sustained release of somatostatin-like immunoreactivity or inhibition of acid secretion occurred in urethane-anesthetized animals. In the second experiment, we analyzed portal plasma by high pressure liquid chromatography, and found that portal somatostatin-like immunoreactivity in blood collected during neurotensin infusion was composed of a single peak corresponding to somatostatin-14. In the third experiment, we found that infusion of antibody to somatostatin prevented neurotensin from inhibiting pentagastrin-stimulated acid secretion. Taken together, these data show that somatostatin, possibly from the stomach itself, is a necessary mediator of neurotensin's inhibitory effect in pentobarbital-anesthetized rats.     

Evidence for immunoreactive neurotensin in dog intestinal mucosa

Discrete cells containing neurotensin, as shown by immunofluorescence, have been observed in the lower portion of the dog ileum. This implies that neurotensin may be synthesized in the small intestine and may be involved in local regulation of intestinal functions. Neurotensin is a peptide characterized originally in the hypothalamus.