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.     

Elucidation by NMR solution of neurotensin in small unilamellar vesicle environment: molecular surveys for neurotensin receptor recognition

Neurotensin (NT) is a tridecapeptide, hormone in the periphery and neurotransmitter in the brain. We used high-resolution nuclear magnetic resonance (NMR) to resolve the three-dimensional structure of NT in a small unilamellar vesicle (SUV) environment. We demonstrate that if the dynamic of the association–dissociation processes of peptide to SUV binding is rapid enough, structural determination can be obtained by solution NMR experiments. Thus, according to the global dynamic of the system, SUVs seem to be an effective model to mimic biological membranes, especially since the lipid composition can be modified or sterols may be added to closely mimic the biological membranes studied.

An animated Interactive 3D Complement (I3DC) is available in Proteopedia at http://proteopedia.org/w/Journal:JBSD:2     

The effect of massive small bowel resection (MSBR) and small intestinal bypass (JIB) in the rat on the enteroinsular axis

The effect of massive small bowel resection (MSBR) and jejuno-ileal bypass (JIB) on the enteroinsular axis in rats was compared. Glucose levels after an oral glucose tolerance test were determined in MSBR, JIB and control animals. The response of the beta-cell mass to glucose and gastric inhibitory polypeptide (GIP) was established in the same animals using the isolated perfused pancreas model. Immunocytochemical and morphological studies were performed to monitor the adaptive changes seen in the intestine of these animals. The glucose response to the oral glucose load was blunted in both test groups with the fasting GIP levels in the JIB group being elevated and the MSBR group being reduced. The response of the isolated perfused pancreas to GIP showed a marked (70%) reduction of insulin release in the JIB rats and a slight but non-significant reduction in the MSBR rats. In both groups the insulin response to glucose alone appeared normal. The area of the pancreatic islets and the percentage of the total area consisting of the four islet cell types (B, A, D, PP) were unchanged. In the intestine the GIP cells were markedly reduced in number in the jejunum of the functional intestine of the JIB rats and the jejunum from the MSBR rats. The GIP cells in the jejunum of the bypass loop did not differ from the control jejunum. The results indicate that the high basal GIP levels seen in the JIB rats were the result of GIP secreted from the blind loop. This study also confirmed the decreased sensitivity of the beta-cells to GIP after JIB while indicating that MSBR has little if any effect on the response of the beta-cell to GIP. These data presented further evidence that the high basal GIP levels were causally related to the decreased insulin response in the JIB rats.     

Neurotensin modulates pacemaker activity in interstitial cells of Cajal from the mouse small intestine

Neurotensin, a tridecapeptide localized in the gut to discrete enteroendocrine cells of the small bowel mucosa, is a hormone that plays an important role in gastrointestinal secretion, growth, and motility. Neurotensin has inhibitory and excitatory effects on peristaltic activity and produces contractile and relaxant responses in intestinal smooth muscle. Our objective in this study is to investigate the effects of neurotensin in small intestinal interstitial cells of Cajal (ICC) and elucidate the mechanism. To determine the electrophysiological effects of neurotensin on ICC, whole-cell patch clamp recordings were performed in cultured ICC from the small intestine. Exposure to neurotensin depolarized the membrane of pacemaker cells and produced tonic inward pacemaker currents. Only neurotensin receptor1 was identified when RT-PCR and immunocytochemistry were performed with mRNA isolated from small intestinal ICC and c-Kit positive cells. Neurotensin-induced tonic inward pacemaker currents were blocked by external Na⁺- free solution and in the presence of flufenamic acid, an inhibitor of non-selective cation channels. Furthermore, neurotensin-induced action is blocked either by treatment with {"type":"entrez-nucleotide","attrs":{"text":"U73122","term_id":"4098075","term_text":"U73122"}}U73122, a phospholipase C inhibitor, or thapsigargin, a Ca²⁺-ATPase inhibitor in ICC. We found that neurotensin increased spontaneous intracellular Ca²⁺ oscillations as seen with fluo4/AM recording. These results suggest that neurotensin modulates pacemaker currents via the activation of non-selective cation channels by intracellular Ca²⁺-release through neurotensin receptor1.     

Ghrelin and glucagon-like peptide-2 increase immediately following massive small bowel resection

Children with short bowel syndrome face life-threatening complications. Therefore, there is an urgent need for a new therapy to induce effective adaptation of the remnant intestine. Adaptation occurs only during feeding. We focused on preprandial acyl ghrelin and des-acyl ghrelin, and postprandial glucagon-like peptide-2 (GLP-2), which are known to have active orexigenic and trophic actions. This study aims to clarify the secretion trends of these hormones after massive small bowel resection and to obtain basic data for developing a new treatment. Sixty-three growing male rats were used: 3 were designated as controls receiving no operation and 60 were randomized into the 80% small bowel resection (80% SBR) group and the transection and re-anastomosis group. Changes in body weight, food intake, and remnant intestine morphology were also assessed for 15 days after the operation. Acyl ghrelin and des-acyl ghrelin levels increased immediately, equivalently in both operation groups (P = 0.09 and 0.70). Interestingly, in 80% SBR animals, des-acyl ghrelin peaked on day 1 and acyl ghrelin peaked on day 4 (P = 0.0007 and P = 0.049 vs controls). GLP-2 secretion was obvious in 80% SBR animals (P = 2.25 × 10⁻⁶), which increased immediately and peaked on day 4 (P = 0.009 vs. controls). Body weight and food intake in 80% SBR animals recovered to preoperative levels on day 4. Morphological adaptations were evident after day 4. Our results may suggest a management strategy to reinforce these physiological hormone secretion patterns in developing a new therapy for short bowel syndrome.     

Release and degradation of neurotensin during perfusion of rat small intestine with lipid

The levels of neurotensin (NT) and its metabolite, the N-terminal octapeptide (NT1-8), identified by HPLC and measured by RIA, were increased in the hepatic-portal circulation of the anesthetized rat during perfusion of the small intestine with a lipid solution, while levels of both peptides remained unchanged in the general circulation. There was no significant arteriovenous difference for NT or NT1-8 during saline perfusion of the small intestine. Plasma collected from the superior mesenteric vein during the infusion of [3H]NT into the superior mesenteric artery showed major peaks of radioactivity with the retention times of NT1-8 and NT1-11 on HPLC. Only 12% of the radioactivity recovered from plasma was intact NT. These studies demonstrate that chromatographically identified NT and its metabolite, NT1-8, are elevated in the portal circulation but not systemic circulation during lipid perfusion and that the small intestine may be both the site of release and metabolism of NT.     

Effects of mammalian and avian neurotensins and neurotensin fragments on wet-dog shaking and body temperature in the rat

The ability of mammalian and avian neurotensins and some neurotensin fragments to reduce wet-dog shaking (WDS) induced by thyrotrophin-releasing hormone (TRH) and to influence rectal temperature was tested after their injection into the periaqueductal grey region of male rats. Both neurotensins inhibited TRH-induced WDS and reduced rectal temperature by 2 degrees C; this latter effect was prevented by prior TRH administration. Of the four neurotensin fragments tested, both (1-8)- and (8-13)-neurotensin reduced WDS but only (8-13)-neurotensin reduced rectal temperature significantly. (1-6)- and (1-11)-neurotensin were without effect in either test system. From the activity of the various peptides, further examples of the mutual antagonism between TRH and neurotensin have been demonstrated. It is suggested that there is a possible role for neurotensin in controlling body temperature via the periaqueductal grey and that this may be one function of neurotensin in avian species; there may also be more than one receptor system binding neurotensin in the brain.     

Differences in the pharmacological actions of intrathecally administered neurotensin and morphine

Neurotensin or morphine can each cause hypothermia and an antinocisponsive effect when administered into the liquor spaces of the rat brain. These actions of neurotensin are not blocked by naloxone whereas those of morphine are. The present experiments were carried out to examine the action of each substance following its injection into the subarachnoid space of the spinal cord. Given intrathecally, neurotensin evoked a dose-related fall in the rectal temperature of the rat without exerting an antinocisponsive action. Morphine on the other hand evoked hyperthermia and a dose-related antinocisponsive action. Since neurotensin exerted an effect on rectal temperature opposite to that of morphine and failed to exert an antinocisponsive effect, the data provide further evidence to suggest that neurotensin and morphine exert their effect via different mechanisms. Furthermore, the results also suggest that neurotensin exerts its antinocisponsive action via a supraspinal site.     

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.     

Neurotensin increases net fluid secretion and transit rate in the small intestine of man

In a double-blind study with six patients, who previously had undergone proctocolectomy for ulcerative colitis, the ileostomy discharge significantly increased from 110 to 295 ml X 4 h-1 during infusion of neurotensin, 3 pmol X kg-1 X min-1 for 4 h. Transit defined as the passage of a perorally ingested unabsorbable marker (polyethylene glycol, PEG 4000) was significantly increased during the last hour of neurotensin infusion. The dose of neurotensin used in this study has previously been shown to result in plasma levels of neurotensin-like immunoreactivity within the range obtained after a fatty meal. Thus, the present data indicate that neurotensin in man may exert a physiological function by increasing net fluid secretion in the small intestine as well as increasing the intestinal transit rate.     

Effect of epidermal growth factor on intestinal adaptation after allogeneic small bowel transplantation in rats

We reported that epidermal growth factor (EGF) stimulated graft adaptation in a rat model of syngeneic small bowel transplantation. However, graft rejection is a severe problem with clinical small bowel transplantation, because small intestinal wall contains large amounts of lymphoid tissue. Studies were performed to investigate the effect of EGF on allogeneic graft adaptation after small bowel transplantation in rats treated with an immunosuppressant FK506. The transplanted animals received intraperitoneally EGF or saline (untreated) after surgery and were examined for analysis one week later. EGF-treated group markedly enhanced the water absorption and induction of sodium glucose cotransporter (SGLTI) as compared with EGF-untreated group. EGF-treated group also increased the mucosal crypt depth and its cell proliferating rate, although there was no significant difference in the mucosal villus height between the two groups. These results indicate that EGF accelerates intestinal allograft adaptation in part by the recovery of mucosal structure and function after small bowel transplantation in rats. EGF may have relevance to promote graft function in clinical small intestinal transplantation.     

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。     

CircORC2 is involved in the pathogenesis of slow transit constipation via modulating the signalling of miR-19a and neurotensin/motilin

In this study, we aimed to investigate the role of circORC2 in modulating miR-19a and its downstream signalling during the pathogenesis of STC. In this study, three groups of patients, that is healthy control (HC) group, normal transit constipation (NTC) group (N = 42) and slow transit constipation (STC) group, were, respectively, recruited. RT-PCR and Western blot analysis were exploited to investigate the changes in the expression levels of miR-19a and circORC2 in these patients, so as to establish a circORC2/miR-19a signalling pathway. The basic information of the patients showed no significant differences among different patient groups. Compared with the HC group, concentrations of neurotensin (NST) and motilin (MLN) were both significantly reduced in the NTC and STC groups, especially in the STC group. Also, miR-19a level was highest, whereas circORC2 level was lowest in the STC group. Furthermore, circORC2 was validated to sponge the expression of miR-19a, and the transfection of circORC2 reduced the expression of miR-19a. Meanwhile, MLN and NST mRNAs were both targeted by miR-19a, and the transfection of circORC2 dramatically up-regulated the expression of MLN and NST. On the contrary, the transfection of circORC2 siRNA into SMCs and VSMCs exhibited the opposite effect of circORC2. Collectively, the results of this study established a regulatory relationship among circORC2, miR-19a and neurotensin/motilin, which indicated that the overexpression of circORC2 could up-regulate the levels of neurotensin and motilin, thus exerting a beneficial effect during the treatment of STC.     

大鼠侧脑室注射神经降压素对血压的作用

雄性Ｓｐｒａｇｕｅ－Ｄａｗｌｅｙ大鼠,用乌拉坦腹腔麻醉,在侧脑室注射神经降压素（ＮＴ）（１０,２０μｇ）可引起血压升高或降低,心率减慢,预先ｉｃｖ ａ１受体阻断剂哌唑嗪,可阻断ＮＴ的中枢升压反应,预先ｉｃｖ Ｍ受体阻断剂硫酸阿托品,可阻断ＮＴ的中枢降压反应,预先ｉｃｖ Ｈ１受体阻断剂扑尔敏或Ｈ２受体阻断剂甲氰咪胍,对ＮＴ的中枢心血管效应均无明显影响。实验结果表明：脑中ＮＴ升高可使血压升高或降低;在     

Atropine-induced gastrointestinal cytoprotection dependences to the intact of vagal nerve against indomethacin-induced gastrointestinal mucosal and microvascular damage in rats

The non-steroidal antiinflammatory drugs, such as an indomethacin (IND), cause mucosal ulceration and increase the mucosal vascular permeability in the gastrointestinal (GI) tract. Some exogenous agents, e.g. the atropine, can protect the GI mucosa against these ulcerogenic effects. The gastrointestinal functions and mucosal protection, however, are regulated by the vagal nerve. The aims of this study was to examine the dependence of atropine-induced GI cytoprotection to the vagal innervation against the development of IND-caused ulcers and microvascular damage in the mucosa of stomach and small intestine in rats. METHODS: the observations were carried out on CFY-strain rats. The mucosal damage was produced by subcutaneous administration of IND in a 20 mg/kg dose 24 h prior to the killing of animals at the same time as the start of atropine-application, which was given in a small dose (0.1 mg/kg) every 5 h. The subdiaphragmatic bilateral surgical vagotomy was done 24 h before the experiment. The vascular permeability, indicated by the microvascular endothel damage, was measured by the appearance and concentration of intravenously administered Evans blue into the GI mucosa. The number and severity of mucosal lesions and the Evans blue content of mucosa were determined in the stomach and small intestine. RESULTS: (1) The IND caused mucosal ulcers and Evans blue extravasation into the mucosa of the stomach and small intestine. (2) The IND-induced mucosal ulceration and vascular permeability significantly decreased after atropine-administration in the same parts of GI tract. (3) The extent of cytoprotective effect of atropine against the IND was decreased after bilateral surgical vagotomy. CONCLUSIONS: (1) The IND causes microvascular endothel damage in the stomach and small intestinal. (2) The atropine has a cytoprotective effect in the stomach and small intestine against the aggressive effects of IND without decrease of gastric acid secretion. (3) The intact vagal nerve is necessary to the function of cytoprotective mechanisms of atropine against the IND.     

Strongyloides ratti: Mast cell and goblet cell responses in the small intestine of infected rats

Kinetics of intestinal mast cells and goblet cells were examined in relation to worm localization at various sites in the small intestine of rats infected with 3000 filariform (stage 3) larvae of Strongyloides ratti. The most marked intestinal mastocytosis was observed on Day 20 at the anterior site of the small intestine where the majority of the worms had concentrated. The number of mast cells in the posterior small intestine increased in parallel with the posterior shift of parasites at the later stage of the infection. In contrast to the intestinal mast cell response, the number of goblet cells was not significantly affected by the infection. These results strongly suggest that intestinal mastocytosis is closely related to the presence of the worms and that mast cells may play an important role for the expulsion of S. ratti.     

Effect of synthetic phenol antioxidants on the parietal pH value of the gastrointestinal tract in intact and vagotomized rats

The influence of synthetic phenol antioxidants dibunol and BH-3 on the value of parietal pH has been studied in the stomach, duodenum, jejunum, ileum, caecum and rectum of intact and vagotomized rats 1, 7, 14, 30 and 60 days after treatment. It was shown that vagotomy leads to an increase in the stomach pH and to a decrease in pH in other parts of the gastrointestinal tract. Maximum BH-3 doses lead to pH increase in the stomach of intact rats. Chronic administration of therapeutic drug doses does not change pH value in control and vagotomized animals.     

Effects of ICV administration of neurotensin and analogs on EEG in rats

The electroencephalographic (EEG) effects of the ICV administration of neurotensin (NT 1-13), NT 1-8 (an inactive neurotensin fragment) and D TYR-11 NT (a long-lasting analog of neurotensin) were studied in rats. In awake rats, NT 1-13 (30 micrograms) and D TYR-11 NT (10 micrograms) induced an increase of the power spectrum in the theta range activity (4-7 Hz). In rats recorded during the sleep-wakefulness cycles, NT 1-13 (10 and 30 micrograms) and D TYR-11 NT (10 micrograms) had an awakening effect and also induced an increase of latency to the first episode of the different sleep stages (intermediate stage and slow wave sleep). NT 1-8 (30 and 90 micrograms in awake rats, 10 and 90 micrograms for sleep-wakefulness cycles) was inactive in all these experiments. Thus, it seems that all these effects can be linked to neurotensin receptors; indeed only fragments which recognize receptors possess an EEG activity.     

Effects of phospholipase A2 on the etiology of pulmonary edema hemodynamics of lesser circulation in intact and vagotomized animals

In experiments on white rats, guinea pigs and cats it was shown that intravenous infusion of phospholipase A2 (FLA2) caused the development of pulmonary edema (PE) in guinea pigs, but did not cause it in rats and cats. Bilateral vagotomy on the neck led to the appearance of the expressed edemogenous effect of FLA2 on the lungs. Pentobarbital anesthesia decreased the effect of vagotomy. This effect is not connected with the turn off of the efferent impulsation in vagus nerves as the infusion of atropine did not repeat the influence of vagotomy. Authors assume that the action of FLA2 is realized across the secretion of humoral factor in vagotomized animals and the increase of the permeability of the aero-hematic barrier.     

Beneficial effects of supplemental buffer and substrate on energy metabolism during small bowel storage

Successful preservation of small bowel (SB) is closely correlated with the maintenance of cellular energetics. This study was designed to assess the ability of a modified UW solution supplemented with buffer and glucose to facilitate ATP production during cold storage. In part A, rats SB (n = 4) were flushed vascularly as follows: Group 1, UW solution (control); Group 2, HUW solution (UW+90 mM histidine). Inclusion of histidine resulted in a >3-fold increase in buffering capacity over the pH range 7.4-6.8. Positive effects of histidine on ATP and energy charge were apparent after 4-10h storage. Examination of the key regulatory enzyme, Phosphofructokinase (PFK), reflected a sustained activation was over 1-4h in the HUW group only. In part B, groups were vascularly flushed as follows: Group 1, HUW solution (control); Group 2, Group 1+20mM glucose; and Group 3, Group 2+luminal flush. Elevated ATP and total adenylates over 2-10h in Group 3 compared to control were a direct consequence of improved glycolytic activity. This data supports the hypothesis that tissue energetics can be significantly improved during cold storage using a histidine-buffered UW solution supplemented with carbohydrate substrate.