UMLS:C0406810 - FACTA Search

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Query: UMLS:C0406810 (NAME)
13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nitric oxide (NO) plays a major role in gut mucosal protection and motility. Having demonstrated the protective effects of intravenous L-arginine (L-arg) and the NO donor, sodium nitroprusside (SNP), in an in-vivo premature piglet intraluminal model of necrotizing enterocolitis (NEC) that incorporates both mucosal damage and intestinal dysmotility, we measured the effects on NO synthase (NOS) isoenzyme activities during i.v. manipulation of the nitrergic system in the NEC-injured gut. In newborn premature Yorkshire piglets, NEC was induced in four groups by intraluminal injection of acidified casein solution in closed test loops of bowel separated by normal saline-injected control loops. Group 1 (n = 4) underwent no further treatment. Group 2 (n = 4) received concomitant continuous i.v. L-arg, a NO substrate. Group 3 (n = 6) received concomitant continuous i.v. SNP, a NO donor. Group 4 (n = 5) received concomitant continuous i.v. N-omega-nitro-L-arginine-methyl-ester (L-NAME), a non-selective NO inhibitor. Control and test gut specimens were harvested after 3 h. NO synthase activity in frozen gut segments was assessed using the (14)C-L-arg to (14)C-L-citrulline conversion assay. Total NOS (TNOS), constitutive NOS (cNOS), and inducible NOS (iNOS) activities were compared. The mean and standard error were calculated for each specimen. Group means were used to compare test and control gut enzyme activities in the different treatment groups. One-way analysis of variance and the Bonferroni post test were used to compare differences among groups. A P value of less than 0.05 was considered significant. In the L-NAME group, cNOS activity was lower than in the untreated NEC group. The SNP group had higher iNOS and TNOS activities than the L-arg group; cNOS was also higher in test and control loops in the SNP versus both L-arg and L-NAME groups. However, in L-arg control loops, cNOS activity was greater than in the L-NAME group. SNP and L-arg treatment of NEC did not significantly modify NOS isoenzyme activities. Thus, in this premature piglet 3-h model of NEC, i.v. L-NAME significantly decreases cNOS activity and correlates with our previously published histopathologic findings confirming the protective role of cNOS-derived NO in NEC-injured gut mucosa. In order to further elucidate the mechanisms involved in the mucosal protection afforded by i.v. L-arg and SNP in this NEC model, studies of a longer duration have been undertaken.
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PMID:Nitric oxide synthase isoenzyme activities in a premature piglet model of necrotizing enterocolitis: effects of nitrergic manipulation. 1247 79

In the obstructed gut, nitric oxide (NO) may influence intestinal barrier function and translocation of bacteria. By using a novel experimental approach, we investigated the effect of supplementation and inhibition of NO synthesis on the time interval necessary for translocation of green fluorescent protein-transfected Escherichia coli (GFP-uv E. coli) in a rat model of small bowel obstruction. In anesthetized Wistar rats, 4 x 10(8) GFP-uv E. coli were administered into a reservoir of terminal ileum formed by ligature. Animals were randomized to receive either i.v. arginine (10 mg/kg), aminoguanidine (300 mg/kg), L-NAME (25 mg/kg), or saline (control). Translocation of GFP-uv E. coli was assessed using intravital video microscopy. Minimal transit time of translocation was measured as time from injection of GFP-uv E. coli into the gut lumen until bacteria were observed in the lamina submucosa and as time from injection of bacteria into the gut lumen until bacteria were observed in the lamina muscularis propria. Minimal transit times were expressed as mean +/- SD. Bacterial translocation into the submucosa and muscularis propria took 36 +/- 7 min and 81 +/- 9 min, respectively in control animals receiving saline. Aminoguanidine and L-NAME caused a marked delay of minimal transit time into the submucosa (63 +/- 5 min and 61 +/- 7 min, respectively; P < 0.05). Arginine significantly accelerated bacterial translocation into the muscularis propria (61 +/- 9 min, P < 0.05). GFP-uv E. coli were detected on frozen sections of small bowel, mesentery, liver, and spleen 2 h after GFP-uv E. coli administration in all animals. A marked upregulation of inducible NO synthase (NOS) in the obstructed bowel segment was demonstrated on immunohistochemistry. The assessment of a newly defined parameter, minimal bacterial transit time, may serve as an additional functional aspect of intestinal barrier function for pathophysiological and pharmacological studies. Aminoguanidine, L-NAME, and arginine were effective in influencing minimal transit time of E. coli during small bowel obstruction.
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PMID:Supplementation and inhibition of nitric oxide synthesis influences bacterial transit time during bacterial translocation in rats. 1268 51

Nitric oxide (NO) and vasoactive intestinal polypeptide (VIP) interact in the regulation of neuromuscular function in the gut. They are also potent intestinal secretogogues that coexist in the enteric nervous system. The aims of this study were: (1) to investigate the interaction between NO and VIP in inducing fluid secretion in the rat jejunum, and (2) to determine whether the NO effect on intestinal fluid movement is neurally mediated. The single pass perfusion technique was used to study fluid movement in a 25 cm segment of rat jejunum in vivo. A solution containing 20 mM L-arginine, a NO precursor, was perfused into the segment. The effect of the NO synthase inhibitors (L-NAME and L-nitroindazole (L-NI)) and the VIP antagonist ([4Cl-D-Phe6,Leu17]VIP (VIPa)) on L-arginine-induced changes in fluid movement, expressed as microl min(-1) (g dry intestinal weight)(-1), was determined. In addition, the effect of neuronal blockade by tetrodotoxin (TTX) and ablation of the myenteric plexus by benzalkonium chloride (BAC) was studied. In parallel groups of rats, the effect of L-NAME and L-NI on VIP-induced intestinal fluid secretion was also examined. Basal fluid absorption in control rats was (median (interquartile range)) 65 (45-78). L-Arginine induced a significant fluid secretion (-14 (-20 to -5); P<0.01). This effect was reversed completely by L-NAME (60 (36-65); P<0.01) and L-NI (46 (39-75); P<0.01) and partially by VIPa (37 (14-47); P<0.01). TTX and BAC partially inhibited the effect of L-arginine (22 (15-32) and 15 (10-26), respectively; P<0.05). The effect of VIP on fluid movement (-23 (-26 to -14)) was partially reversed by L-NAME (24 (8.4-35.5); P<0.01) and L-NI (29 (4-44); P<0.01). The inhibition of VIP or NO synthase prevented L-arginine- and VIP-induced intestinal fluid secretion through a neural mechanism. The data suggest that NO enhances the release of VIP from nerve terminals and vice versa. Subsequently, each potentiates the other's effect in inducing intestinal fluid secretion.
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PMID:Interplay between nitric oxide and vasoactive intestinal polypeptide in inducing fluid secretion in rat jejunum. 1279 80

Trichinella spiralis infection in rodents is a well-known model of intestinal inflammation associated with hypermotility and hypersecretion. Our aim was to use this experimental model to elucidate if iNOS was involved in the development of gastrointestinal hypermotility. Rats infected with Trichinella spiralis were treated for 4 days with the nitric oxide synthase inhibitors L-NAME or L-NIL. Treatment began either simultaneously with the infection or 3 days after infection when inflammation was already fully developed. In all cases, at day 10-12 after infection, anesthetized rats were prepared with strain gauges and electrodes in the small intestine to evaluate motor activity of the small intestine. In addition, histology and iNOS immunohistochemistry studies were performed. The results showed that both NOS inhibitors blocked iNOS expression in the intestine. None of the NOS inhibitors attenuated the inflammatory process. However, the preventive treatment with L-NIL reversed hypermotility. In contrast, the treatment with NOS inhibitors 3 days after infection was not so effective in reversing motor alterations. L-NAME, but not L-NIL, caused alterations on spontaneous motility. In conclusion, these results indicate that iNOS participates in the development of motor hypermotility in the gut.
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PMID:Inducible nitric oxide synthase inhibitors ameliorate hypermotility observed after T. spiralis infection in the rat. 1282 60

The effects of heme oxygenase (HO) inhibitors, zinc-protoporphyrin-IX (ZnPP-IX), and tin protoporphyrin-IX (SnPP-IX) and their interactions with L-arginine/nitric oxide synthase (NOS) and cyclooxygenase (COX) pathways were investigated in postoperative ileus in rats. Intestinal transit was measured as Evans blue migration after skin incision, laparotomy or laparotomy plus gut evisceration and handling. Laparotomy and small intestinal manipulations increased blood plasma nitrites/nitrates level 1.88-fold. N(omega)-nitro-L-arginine methyl ester, indomethacin, a selective COX-1 blocker (resveratrol) and COX-2 antagonists (nimesulide, DuP-697, NS-398) reversed the additional inhibitory effects of gut manipulation subsequent to laparotomy. In contrast, N-(3-(aminomethyl)benzyl)acetamidine or S-methylisothiourea, highly selective inducible NOS blockers, remained ineffective. ZnPP-IX and SnPP-IX overturned the effects of laparotomy on dye propulsion, but were only partially effective after laparotomy and gut handling attenuating the additional inhibitory influences of gut manipulation, the intestinal transit reaching 89.21%, 92.87%, 53.46%, and 48.56% of respective controls transit. Salutary effects of L-NAME, ZnPP-IX, and SnPP-IX were dose-dependent, L-arginine or hemin (HO substrate) sensitive. Administration of indomethacin and resveratrol subsequent to SnPP-IX reversed the inhibitory effects of laparotomy and manipulation, amounting to 93.91% and 87.43% of controls. On the other hand, L-NAME injected after SnPP-IX abolished the salutary effects of the latter, study dye migration reached 25.18% of control rat. Therefore we demonstrated that nitric oxide, carbon monoxide, and prostanoids play a role in the pathogenesis of postoperative ileus albeit in different mechanisms. Laparotomy stimulated HO activity, whereas gut manipulation led to an excessive constitutive NOS stimulation accompanied by augmented prostanoid synthesis by COX-1. Unaffected synthesis of either NO or CO enables a return of gastrointestinal transit during postoperative period, whereas a pharmacological blockade of two complementary metabolic pathways provides a most effective measure against postoperative ileus development.
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PMID:The role and interactions of nitric oxide (NO), carbon monoxide (CO), and prostanoids in the pathogenesis of postoperative ileus in rats. 1501 33

Studies from our laboratory have revealed a novel micro opiate receptor, micro(3), which is expressed in both human vascular tissues and leukocytes. The micro(3) receptor is selective for opiate alkaloids, insensitive to opioid peptides and is coupled to constitutive nitric oxide (cNO) release. We now identify the micro(3) receptor characteristics in mammalian gut tissues. It appears that the various regions of the mouse gut release low levels of NO (0.02 to 4.6 nM ) in a pulsatile manner. We demonstrate that morphine stimulates cNO release (peak level 17 nM) in the mouse stomach, small intestine and large intestine in a naloxone and L-NAME antagonizable manner. Opioid peptides do not exhibit cNO-stimulating capabilities in these tissues. Taken together, we surmise morphine acts as a hormone to limit gut activity via micro(3) coupled to NO release since micro opiate receptors are found in the gut and endogenous morphine is not but is found in blood.
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PMID:Morphine enhances nitric oxide release in the mammalian gastrointestinal tract via the micro(3) opiate receptor subtype: a hormonal role for endogenous morphine. 1508 84

Non-adrenergic, non-cholinergic (NANC) inhibitory neurotransmission has been an area of intense interest in gut motor physiology, whereas excitatory NANC neurotransmission has received less attention. In order to further explore excitatory NANC neurotransmission, we performed conventional intracellular recordings from guinea-pig taenia caeci smooth muscle. Tissue was perfused with oxygenated Krebs solution at 35 degrees C and nerve responses evoked by either oral or aboral nerve stimulation (NS) (4 square wave pulses, 0.3 ms duration, 20 Hz). Electrical activity was characterized by slow waves upon which one to three action potentials were superimposed. Oral NS evoked an inhibitory junction potential (IJP) at either the valley or peak of the slow wave. Application of nifedipine (1 microM) abolished slow waves and action potentials, but membrane potential flunctuations (1-3 mV) and IJPs remained unaffected. Concomitant application of apamin (300 nM), a small-conductance Ca(2+)-activated K(+) channel blocker, converted the IJP to an EJP that was followed by slow IJP. Further administration of N(G)-nitro-l-arginine methyl ester (l-NAME, 200 microM), a nitric oxide synthase inhibitor, abolished the slow IJP without affecting the EJP, implying that the slow IJP is due to nitrergic innervation. The EJP was abolished by tetrodotoxin (1 microM), but was not significantly affected by atropine (3 microM) and guanethidine (3 microM) or hexamethonium (500 microM). Substance P (SP, 1 microM) desensitization caused slight attenuation of the EJP, but the EJP was abolished by desensitization with alpha,beta-methylene ATP (50 microM), a P2 purinoceptor agonist that is more potent than ATP at the P2X receptor subtype, suramin (100 microM), a non-selective P2 purinoceptor antagonist, and pyridoxal-phosphate-6-azophenyl-2',4'-disulphonic acid (PPADS, 100 microM) , a selective P2X purinoceptor antagonist. In contrast, the EJP was unaffected by MRS-2179 (2 microM), a selective P2Y(1) receptor antagonist. Aboral NS evoked an apamin- and l-NAME-sensitive IJP, but virtually no NANC EJP. These data suggest the presence of polarized excitatory purinergic neurotransmission in guinea-pig taenia caeci, which appears to be mediated by P2X purinoceptors, most likely the P2X(1) subtype.
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PMID:Excitatory purinergic neurotransmission in smooth muscle of guinea-pig [corrected] taenia caeci. 1567 92

Nitric oxide (NO) is an important neurotransmitter in the gut and has been demonstrated to be a key physiological mediator of non-adrenergic non-cholinergic (NANC) relaxation of gastrointestinal smooth muscle. In the present study the effect of PDE 5 inhibitor sildenafil on the gastrointestinal function (gastric emptying and intestinal transit) has been demonstrated in mice. Sildenafil (0.5-2 mg/kg, po) did not alter the percent gastric emptying however, in higher doses (5, 10 and 30 mg/kg, po) it inhibited the gastric emptying. On acute administration (0.5-5 mg/kg, po) it did not alter the intestinal transit but in higher doses (10 and 30 mg/kg, p.o.) delayed the intestinal transit. Further, the inhibitory effect of sildenafil was significantly blocked by L-NAME (10 mg/kg, ip), a non-selective NOS inhibitor and methylene blue (1 mg/kg, ip), a guanylate cyclase inhibitor. These findings suggest the participation of NO-cGMP transduction pathway in the inhibitory effect of sildenafil (higher doses) on the gastrointestinal smooth muscles and its potential application in patients with nutcracker oesophagus, hypertensive lower oesophageal sphincter (LOS), achalsia and diabetic gastroparesis or colitis where there is a loss of nNOS.
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PMID:Inhibitory effect of sildenafil on gastrointestinal smooth muscle: role of NO-cGMP transduction pathway. 1578 18

Intestinal inflammation enhances the potency of mu-opioid receptor (MOR) agonists inhibiting gastrointestinal transit and increases the expression of MOR in mice intestine. The precise mechanisms implicated in the increased expression of MOR during intestinal inflammation are not known. The aim of the study is to evaluate if nitric oxide released during intestinal inflammation could modulate MOR gene expression and affect gastrointestinal transit. Intestinal inflammation was induced by the intragastric administration of croton oil. In CD-1 mice, with and without inflammation, we evaluated the anti-transit effects of morphine in animals treated with NOS inhibitors (L-NAME and L-NIL) and the intestinal levels of iNOS enzyme mRNA. The anti-transit effects of morphine and the expression of MOR mRNA in the gut of wild-type (WT) and iNOS-/- mice were also assessed. Gastrointestinal transit was measured with charcoal meal and mRNA levels determined by real-time PCR. In CD-1 mice, inflammation induced a 10-fold increase (P<0.0001) in iNOS mRNA levels in the gut. The absence of iNOS gene and treatment of CD-1 mice with L-NAME or L-NIL abolished the increased antitransit effects of morphine observed during inflammation. Moreover, although the basal levels of MOR mRNA were similar in WT and iNOS animals (-/-), intestinal inflammation only increased the MOR expression in the gut of WT (P<0.01) but not in iNOS-/- mice. The results suggest that nitric oxide derived from the increased expression of iNOS is implicated in the enhanced effects of morphine and in the upregulation of MOR gene transcription observed during intestinal inflammation.
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PMID:The involvement of nitric oxide in the enhanced expression of mu-opioid receptors during intestinal inflammation in mice. 1585 37

Using motion analysis, the ontogeny of the nitrergic control system in the gut was studied in vivo in zebrafish Danio rerio embryos and larvae. For the first time we show the presence of a nitrergic tonus, modulating both anterograde and retrograde contraction waves in the intestine of developing zebrafish. At 4 d.p.f. (days post fertilisation), the nitric oxide synthase (NOS) inhibitor L-NAME (three boluses of 50-100 nl, 10(-3) mol l(-1)) increased the anterograde contraction wave frequency by 0.50+/-0.10 cycles min(-1). Subsequent application of the NO donor sodium nitroprusside (SNP; three boluses of 50-100 nl, 10(-4) mol l(-1)) reduced the frequency of propagating anterograde waves (-0.71+/-0.20 cycles min(-1)). This coincided with the first appearance of an excitatory cholinergic tonus, observed in an earlier study. One day later, at 5 d.p.f., in addition to the effect on anterograde contraction waves, application of L-NAME increased (0.39+/-0.15 cycles min(-1)) and following SNP application reduced (-1.61+/-0.36 cycles min(-1)) the retrograde contraction wave frequency. In contrast, at 3 d.p.f., when no spontaneous motility is observed, application of L-NAME did not induce contraction waves in either part of the gut, indicating the lack of a functional inhibitory tonus at this early stage. Gut neurons expressing NOS-like immunoreactivity were present in the distal and middle intestine as early as 2 d.p.f., and at 1 day later in the proximal intestine. In conclusion, the present study suggests that a nitrergic inhibitory tonus develops shortly before or at the time for onset of exogenous feeding.
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PMID:The effects of endogenous and exogenous nitric oxide on gut motility in zebrafish Danio rerio embryos and larvae. 1678 30

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