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)

This study set out to identify the neurotransmitters involved in autonomic vasodilatation of the guinea pig uterine artery. Non-noradrenergic, paracervical neurons supplying this artery contain at least four neuropeptides: vasoactive intestinal peptide (VIP), neuropeptide Y (NPY), dynorphin A (1-17) and somatostatin, probably in addition to acetylcholine. Transmural nerve stimulation of arterial segments precontracted with phenylephrine (3 x 10(-7) mol l-1 and treated with guanethidine (10(-6) mol l-1), produced relaxations which varied in form with the frequency of stimulation and the length of the pulse train. The relaxations were monophasic at low frequencies (< 2 Hz), and were biphasic at higher frequencies (> 5 Hz) and with longer pulse trains (> 50 pulses). Neither phase of the relaxations was reduced by hyoscine (10(-6) mol l-1), or by removal of the endothelium. The faster phase of the relaxations was selectively reduced (by 61%) during treatment with L-nitro-arginine methyl ester (L-NAME; up to 3 x 10(-5) mol l-1). This reduction was reversed by an excess of L-arginine, indicating that the fast relaxation was mediated by nitric oxide, possibly acting as a neurotransmitter. The slower phase of the neurogenic relaxation was preferentially reduced (by 43%) by the endopeptidase, trypsin (1-3 micrograms.ml-1). As VIP is the only currently identified peptide present in the paracervical neurons which causes vasodilatation, it is likely that VIP, or a closely-related peptide, is the transmitter responsible for the slow relaxation. Acetylcholine and an opioid peptide also seem to be released from the vasodilator neurons, but their effects were small, and may have been restricted to pre-synaptic sites. The slower neurogenic relaxations were inhibited by exogenous neuropeptide Y (68% reduction in amplitude), and were slightly potentiated by somatostatin (21% increase in amplitude). Therefore, endogenous stores of these peptides may also contribute to the sum effect of stimulating the paracervical vasodilator neurons. In conclusion, many different substances may act as autonomic co-transmitters from these pelvic vasodilator neurons.
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PMID:Co-transmission from autonomic vasodilator neurons supplying the guinea pig uterine artery. 809 24

1. Electrical field stimulation (EFS) of intrinsic nerves in the rat proximal duodenum induces a frequency-dependent non-adrenergic-non-cholinergic (NANC) relaxation response. 2. The inhibitors of L-arginine-NO synthase L-NG-nitro arginine methyl-ester (L-NAME) and L-NOARG (L-NG-nitro arginine) reduced the NANC relaxations elicited by EFS in a dose- and time-dependent manner; L-NOARG was two times more potent than L-NAME (IC50 = 14.3 vs 25.2 microM) and these effects were partially reverted by the addition of 300-1000 microM L-arginine but not of 300-1000 microMD-arginine. Relaxation caused by vasoactive intestinal peptide (VIP; 0.1 microM) or ATP (20 microM) was not blocked by L-NAME or L-NOARG. 3. The magnitude of the blockade caused by L-NAME and L-NOARG was dependent on the frequency of stimulation. At low frequencies (below 1 Hz) both L-NAME and L-NOARG abolished the relaxations, while at 2 to 8 Hz only partial inhibition was observed (maximal inhibition: 44.6% +/- 5.2 and 63.4% +/- 3.4, respectively) 4. The basal tonus of the duodenum was increased by 10-300 microM L-NAME and 10-300 microM L-NOARG and this effect was blocked by 1 mM L-arginine. 5. Nitric oxide generated from acidified NaNO2 caused a dose-dependent (EC50 = 2.75 microM) relaxation of the duodenum which was not affected by 100 microM L-NAME, 100 microM L-NOARG or 1 microM tetrodotoxin (TTX). 6. NADPH-diaphorase positive neurons and fibers identified by histochemistry were present in the myenteric plexus and along both circular and longitudinal muscle fibers indicating that nitric oxide could be synthetized by these neural structures.
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PMID:Evidence for the participation of the L-arginine-nitric oxide pathway in neurally induced relaxation of the isolated rat duodenum. 813 34

The effect of pituitary adenylate cyclase activating peptide (PACAP 1-27) was examined on epithelium-intact and -denuded guinea-pig tracheal strips (GPT) and compared to vasoactive intestinal peptide (VIP) and salbutamol. PACAP (10(-11)-10(-8) moles) induced dose-dependent relaxations of the basal tone of both epithelium-intact and -denuded GPT. PACAP was approximately three times less potent than either VIP or salbutamol in relaxing epithelium-intact GPT. The relaxant effects of both peptides and salbutamol were markedly attenuated following removal of the epithelial layer. L-NAME (10(-4) M), a nitric oxide synthase inhibitor, did not affect the responses induced by either PACAP or VIP demonstrating that the relaxant effect is independent of nitric oxide synthesis. Phosphoramidon (5 x 10(-6) M) potentiated the relaxant responses of epithelium-intact GPT to both PACAP and VIP but did not affect the responses of epithelium-denuded GPT. PACAP and VIP also induced relaxations of the guinea-pig upper bronchus. In addition, PACAP (10(-6) M), as well as VIP, significantly inhibited the release of TxB2 induced by LTD4 (10(-7) M) from chopped guinea-pig lung suggesting that this newly isolated peptide, which has 68% homology with VIP, may possess anti-inflammatory action in the lung.
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PMID:Relaxant effects of pituitary adenylate cyclase activating polypeptide (PACAP) on epithelium-intact and -denuded guinea-pig trachea: a comparison with vasoactive intestinal peptide (VIP). 853 72

The role of nitric oxide (NO) in mediating various submandibular responses to stimulation of the parasympathetic innervation has been investigated in anaesthetized cats, in which N omega-nitro-L-arginine methyl ester (L-NAME; 30 mg kg-1 I.A.) was used to block the synthesis of NO. L-NAME significantly reduced the vasodilator response and the flow of saliva, together with the output of salivary protein that occurred during stimulation of the chorda lingual nerve (20 Hz for 1 s at 10 s intervals), without significantly reducing the output of vasoactive intestinal peptide (VIP) from the gland. The results show that NO is implicated not only in the release of VIP, as established previously, but also in mediating its actions following release in the submandibular gland of the cat.
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PMID:Nitric oxide and release of the peptide VIP from parasympathetic terminals in the submandibular gland of the anaesthetized cat. 873 69

1. Frequency-dependent nonadrenergic, noncholinergic (NANC) relaxant responses were induced by transmural stimulation of whole tracheal tube preparations. 2. Responses at lower frequencies (< or = 10 Hz) were abolished by L-nitroarginine methyl ester (L-NAME). 3. Responses at higher frequencies (> or = 20 Hz) consisted of a rapid, short-lasting relaxation, followed by a slow, long-lasting relaxation. The former and the latter were reduced by L-NAME and alpha-chymotrypsin, respectively. 4. alpha-Chymotrypsin had little effect on the magnitude of NANC responses, but reduced the duration of responses at higher frequencies (> or = 20 Hz). 5. The results suggest that NANC relaxation of guinea pig trachea may be mediated primarily by nitric oxide, with and without concomitant release of vasoactive intestinal peptide or related peptides, and nitric oxide may act as predominant mediator providing the magnitude of relaxant response.
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PMID:Role of nitric oxide in nonadrenergic, noncholinergic relaxation of whole tracheal tube preparations isolated from guinea pigs. 884 85

The relation between duodenal motility and duodenal mucosal alkaline secretion (DMAS) was examined in anesthetized rats. The duodenum was perfused with saline, and DMAS was determined by titration. Duodenal motility, assessed by intraluminal pressure measurements, was induced by indomethacin and/or N omega-nitro-L-arginine methyl ester (L-NAME) and inhibited by iloprost or vasoactive intestinal peptide (VIP). Six of 66 rats showed spontaneous duodenal contractions. Basal DMAS was higher in these rats than in those without contractions. Rats treated with indomethacin and L-NAME before abdominal operation exhibited duodenal motility postoperatively and had higher DMAS than in controls. Iloprost abolished both the duodenal motility increase and increase in DMAS induced by indomethacin. L-NAME-induced motility and increase in DMAS were antagonized by L-arginine. VIP increased DMAS without affecting motility. VIP abolished indomethacin-induced motility and augmented indomethacin-stimulated DMAS. VIP reduced L-NAME-induced motility and slightly increased L-NAME-stimulated DMAS. It is concluded that DMAS varies with duodenal motility. Prostaglandins and NO inhibit duodenal motility, thereby indirectly reducing DMAS. VIP may have dual effects on DMAS, an inhibitory action mediated via smooth muscle relaxation and a stimulatory action independent of motility.
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PMID:Interaction between prostanoids, NO, and VIP in modulation of duodenal alkaline secretion and motility. 889 76

Submandibular salivary responses to stimulation of the parasympathetic chorda lingual innervation have been investigated in anaesthetized cats in the presence and absence of N omega-arginine-L-methyl ester (L-NAME) to block the synthesis of nitric oxide. Stimulation either at 2 Hz continuously or at 20 Hz for 1 s at 10 s intervals produced an abrupt fall in submandibular vascular resistance and initiated a flow of submandibular saliva. Neither of these responses differed significantly from the other but the output of protein was significantly potentiated (P < 0.05) when the high-frequency intermittent pattern of stimulation was employed. This potentiation of protein output was abolished in the presence of L-NAME, when the output of protein from the gland was closely similar, whichever pattern of stimulation was employed. Additional administration of atropine completely blocked all submandibular responses to parasympathetic stimulation showing that, in the presence of L-NAME, each response was due to release of acetylcholine acting on muscarinic receptors. The intermittent pattern of chorda lingual nerve stimulation produced a significant rise in the output of vasoactive intestinal peptide (VIP) from the gland (P < 0.01) and this response was significantly reduced following administration of L-NAME (P < 0.05). The results are consistent with the contention that stimulation of the parasympathetic innervation in bursts, which increases the amount of VIP released from the postganglionic nerve terminals, enhances the output of protein in submandibular saliva in the cat. The mechanism involves nitric oxide (NO), which may act, at least in part, presynaptically by modulating VIP release.
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PMID:The role of nitric oxide in the control of protein secretion in the submandibular gland of the cat. 896 2

The purpose of this study was to begin to determine the mechanisms underlying vasodilation elicited by vasoactive intestinal peptide (VIP) in sterically stabilized liposomes (SSL) in the in situ peripheral microcirculation. Using intravital microscopy, we found that suffusion of VIP in SSL (0.42 and 0.85 nmol) onto the hamster cheek pouch for 1 h elicited significant and prolonged concentration-dependent vasodilation (P < 0.05). Suffusion of VIP in SSL (0.1 nmol) for 7 min elicited a qualitatively similar response, although its magnitude was significantly smaller than that elicited by 1 h of suffusion of VIP in SSL (P < 0.05). The VIP-receptor antagonist VIP-(10-28), but not the amino-terminal fragment VIP-(1-12), significantly attenuated and delayed the onset of VIP in SSL-induced vasodilation (P < 0.05). The nitric oxide (NO) synthase inhibitor NG-nitro-L-arginine methyl ester (L-NAME), but not NG-nitro-D-arginine methyl ester (D-NAME), abrogated VIP in SSL-induced responses. We conclude that VIP in SSL elicits significant and prolonged vasodilation in the in situ peripheral microcirculation, which is specific, partly receptor dependent, and partly transduced by the L-arginine/NO biosynthetic pathway.
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PMID:Mechanisms of vasodilation elicited by VIP in sterically stabilized liposomes in vivo. 924 62

Modulation of canine ileal pacemaker activity by nitric oxide (NO) or vasoactive intestinal peptide (VIP) was studied during recording of the intracellular electrical and mechanical activity from the entire muscularis externa and from an isolated circular muscle preparation both cut in the long axis of the circular muscle. In the whole-thickness preparation with cholinergic and adrenergic nerve function blocked, the inhibitory junction potentials (IJPs) recorded near the myenteric plexus (MyP) or deep muscular plexus (DMP) were abolished by omega-conotoxin GVIA (omega-CTX, 10(-7) to 3 x 10(-7) M), tetrodotoxin (TTX, 1 microM), or the NO synthase (NOS) inhibitor N omega-nitro-L-arginine (L-NNA at 50 microM). IJPs from electrical field stimulation triggered slow waves (TSWs); after TTX or omega-CTX, TSWs still occurred, advanced in time and increased in amplitude after TTX. Addition of L-NNA advanced the onset of the TSWs after omega-CTX. TTX, L-NNA, or omega-CTX left the resting membrane potentials, the characteristics of spontaneous slow waves, or TSWs evoked by a long stimulating pulse unchanged. L-NNA at 100 microM enhanced the amplitude but not the frequency of spontaneous slow waves. TTX and NOS blockers all increased circular muscle contractions associated with the spontaneous slow waves and TSWs. In isolated circular muscle preparations, the NOS inhibitors N omega-nitro-L-arginine methyl ester (L-NAME at 300 microM) or L-NNA at 100 microM abolished the IJPs and increased the regularity and amplitude of spontaneous slow waves and associated contractions, but TSWs could not be evoked before or after NOS inhibition. The NO donor 3-morpholinosydnonimine hydrochloride (SIN-1) at 200 microM caused hyperpolarizations (10-15 mV) similar to the IJP mediator, attenuated the IJPs, and abolished mechanical activities. SIN-1 increased the slow wave frequency but decreased the amplitude and duration of spontaneous slow waves and TSWs. VIP (10(-6) M) decreased contraction and slow wave amplitude and prolonged IJP duration without affecting membrane potential or slow wave frequency. We conclude that spontaneous slow waves and TSWs originate independently of neural activity. Pacemaking regions possess inhibitory neural inputs that release NO to mediate IJPs and relaxation and influence the delay before a TSW. NO (not VIP) release from nerves inhibits initiation of spontaneous slow waves or TSWs near the MyP, and spontaneous NO release modulates pacemaking activity from the DMP.
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PMID:Influence of nitric oxide and vasoactive intestinal peptide on the spontaneous and triggered electrical and mechanical activities of the canine ileum. 925 Mar 72

Calcitonin gene-related peptide (CGRP), carbamylcholine, and vasoactive intestinal peptide (VIP) caused a concentration-related relaxation in mouse aorta precontracted to noradrenaline. Maximal relaxations obtained were 110, 44, and 46% with median effective concentrations (EC50) values of 7.8, 813.7, and 24.5 nM for CGRP, carbamylcholine, and VIP, respectively. The carbamylcholine- and VIP-induced relaxations were exclusively mediated by endothelial cell-derived factors, whereas CGRP maintained a full vasodilatory action in denuded aorta. However, its concentration-response curve was slightly shifted to the right in the absence of endothelium. The relaxation caused by CGRP was also slightly inhibited at 2 x 10(-8) M by removal of endothelium and in the presence of methylene blue, NG-nitro-L-arginine methylester (L-NAME), or glibenclamide but was not affected by atropine, propranolol, indomethacin, or tetrodotoxin. Moreover, the absence of Ca2+ in the bathing solution had no inhibitory effect on CGRP-induced relaxation in noradrenaline-precontracted aorta. It is concluded that the relaxation evoked by CGRP in the mouse aorta does not mainly depend on an endothelium-derived factor or on the activation of ATP-sensitive K+ (KATP) channels but rather is caused by a mechanism primarily associated with the inhibition of the mobilization of intracellular Ca2+.
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PMID:Mouse aorta: a preparation highly sensitive to the vasodilatory action of CGRP. 930 Mar 19

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