UNIPROT:P20366 - FACTA Search

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Query: UNIPROT:P20366 (substance P)
21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of inhibiting nitric oxide synthase (N omega-nitro-L-arginine) on plasma extravasation induced by intravenously administered substance P, [pGlu5,Me-Phe8,Sar9]substance P-(5-11) or prostaglandin E2 was examined. Control rats were more responsive than diabetic rats to both substance P and [pGlu5,Me-Phe8,Sar9]-substance P-(5-11). N omega-Nitro-L-arginine blocked the actions of substance P on dorsal skin, but potentiated those of [pGlu5,Me-Phe8,Sar9]substance P-(5-11) in control rats. In diabetic rats N omega-nitro-L-arginine, which did not affect the actions of the substance P analogue, exerted complex effects on substance P induced plasma extravasation giving potentiation in the tongue, inhibition in bronchioles, and no effect in other tissues. N omega-Nitro-L-arginine inhibited prostaglandin E2 induced extravasation in control, but not diabetic rats. The altered plasma extravasation in diabetic rats may be due to diabetes induced alterations in nitric oxide synthesis or in the responses of the endothelial cells to nitric oxide.
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PMID:Altered vascular permeability responses to substance P in diabetic rats: interactions with a nitric oxide synthesis inhibitor. 769 56

Pancreatic ganglia are formed by neural crest-derived precursors, are innervated by enteric neurons, and contain neuropeptides. In addition, the enzyme NADPH-diaphorase is located in a subset of enteric and pancreatic neurons. The expression of neural markers (GAP-43 and NC-1), neurotransmitter-related markers (including neuropeptide Y (NPY), vasoactive intestinal peptide (VIP), gastrin-releasing peptide (GRP), galanin (GAL), dopamine beta hydroxylase (DBH), substance P (SP), calcitonin gene-related peptide (CGRP)), and NADPH-diaphorase was studied in the fetal and neonatal rat gut and pancreas (E12-P28) in situ and in vitro. NC-1, GAP-43 and DBH-immunoreactive cells were found in the primordial stomach on day E12, and in the pancreas on day E13, along with NPY in endocrine cells. Pancreatic NPY-immunoreactive neurons were detected by day E18. CGRP was seen in the foregut at day E12 but not in the pancreas until day E14. Other neuropeptides (SP, GAL, GRP and VIP) all appeared in the foregut earlier than in the pancreas. NADPH-diaphorase activity was first found in situ in foregut neurons on day E13, and in the pancreas on day E14, but seen in explants a day earlier. These observations show that development of neurons occurs earlier in the gut than in the pancreas, and that NADPH-diaphorase activity appears earlier than the immunoreactivities of the neuropeptides.
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PMID:Appearance of neuropeptides and NADPH-diaphorase during development of the enteropancreatic innervation. 772 Feb 14

In vitro electrophysiological studies of ileal circular muscle from rabbits with ricin-induced inflammation were performed to investigate whether altered neural control or myogenic activity contributes to previously described changes in in vivo myoelectric activity. Ricin treatment increased mean slow-wave amplitude but not frequency or resting membrane potential. Prolonged electrical field stimulation evoked a hyperpolarization during the stimulus train and a depolarization on cessation of stimulation. In the presence of atropine, the depolarization was larger in ricin-treated tissue than in control tissue, showing that ileitis enhanced noncholinergic excitation. The nitric oxide synthase inhibitor N-nitro-L-arginine methyl ester reduced the hyperpolarization in ricin-treated but not in control tissue, suggesting that inflammation increased nitric oxide-mediated inhibition. Substance P desensitization reduced noncholinergic excitation and mean slow-wave amplitude only in ricin-treated tissue, demonstrating that changes in these parameters during inflammation resulted from increased release of, or sensitivity to, tachykinins. These data suggest that acute ileitis alters tachykinin- and nitric oxide-mediated neurotransmission that may affect the normal pattern of ileal motility and/or sensory reflexes.
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PMID:Changes in enteric neural regulation of smooth muscle in a rabbit model of small intestinal inflammation. 776 66

Colocalization of vasoactive intestinal peptide, neuropeptide Y, calcitonin gene-related peptide, substance P, and tyrosine hydroxylase, respectively, with NADPH-diaphorase staining in rat adrenal gland was investigated using the double labelling technique. All vasoactive intestinal peptide- and some neuropeptide Y-immunoreactive intrinsic neuronal cell bodies seen in the gland were double stained with NADPH-diaphorase. Double labelling also occurred in some nerve fibres immunoreactive to vasoactive intestinal peptide and neuropeptide Y in the medulla and cortex. No colocalization of calcitonin gene-related peptide, substance P or tyrosine hydroxylase immunoreactivity with NADPH-diaphorase staining was observed. However, nerve fibres with varicosities immunoreactive for all the neuropeptides examined were closely associated with some of the NADPH-diaphorase-stained neuronal cell bodies. Thus, in rat adrenal gland, nitric oxide is synthesized in all ganglion cells containing vasoactive intestinal peptide and in some containing neuropeptide Y, but not in those containing calcitonin gene-related peptide, substance P or tyrosine hydroxylase.
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PMID:Colocalization of neuropeptides and NADPH-diaphorase in the intra-adrenal neuronal cell bodies and fibres of the rat. 778 Oct 27

Recent studies of autonomic ganglia have shown that specific combinations of neuropeptides and other potential neurotransmitters distinguish different functional types of neurons. In the present paper the patterns of coexistence of neurochemicals in guinea-pig cardiac ganglion cells was examined, using multiple-labelling immunohistochemistry. Many neurons were found to contain somatostatin immunoreactivity with various combinations of immunoreactivity for dynorphin B, substance P, neuropeptide Y and nitric oxide synthase. There were several small populations of neurons without somatostatin immunoreactivity, which contained combinations of immunoreactivity for vasoactive intestinal peptide, neuropeptide Y, dynorphin B, substance P and nitric oxide synthase. Possible synaptic inputs to these populations of ganglion cells were identified using multiple-labelling immunohistochemistry combined with long-term organ culture. These experiments demonstrated that cardiac ganglia contain prominent pericellular baskets of varicose nerve terminals of sympathetic and sensory origin. In addition, populations of intrinsic intraganglionic nerve terminals were identified which were immunoreactive for vasoactive intestinal peptide, neuropeptide Y or both peptides. These terminals presumably originate from intrinsic neurons, with the same combinations of neuropeptides, located in other cardiac ganglia. These results have demonstrated that there are diverse populations of cardiac ganglion cells in the guinea-pig and that some of these neurons may act as interneurons within the intrinsic cardiac plexuses. Therefore it is highly likely that vagal transmission in the heart is modified by sympathetic, sensory and intrinsic neurons and that cardiac ganglia are complex integrators of convergent neuronal activity rather than simple relays.
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PMID:Multiple populations of neuropeptide-containing intrinsic neurons in the guinea-pig heart. 781 2

1. Human epicardial coronary artery rings, freshly obtained from cardiac transplant patients, were examined for their responses to endothelium-derived relaxing factor (EDRF)-releasing agents. 2. Functional antagonism profoundly influenced relaxation responses in this tissue. Increasing force with concentrations of U46619 above 3 nM (40% of maximum contraction response) resulted in a reduction of the maximum response to four vasorelaxants which relax vascular smooth muscle via different mechanisms: the EDRF-releasing agents, substance P and bradykinin; the endothelium-independent nitro-vasodilator, sodium nitroprusside (SNP); and the beta-adrenoceptor agonist, isoprenaline. 3. Substance P, histamine, bradykinin and the Ca2+ ionophores ionomycin and A23187 all caused concentration- and endothelium-dependent relaxation in vessels pre-contracted with the thromboxane A2-mimetic, U46619 (3 nM) to an active force optimal for relaxation responses. Nifedipine (0.1 microM), added to prevent spontaneous contractions, had no effect or relaxation responses to substance P, bradykinin and histamine. 4. Substance P was the most potent of the EDRF-releasing agents examined and all agents except for bradykinin caused near-maximal relaxation. Bradykinin caused only 46.2% +/- 7.3% relaxation. Responses were abolished when the endothelium was removed and, except for histamine, were not significantly affected by indomethacin (3-10 microM, P > 0.05). Histamine (0.1-10 microM) caused a concentration-dependent contraction of arterial rings without endothelium. 5. The L-arginine analogues NG-nitro-L-arginine (L-NOARG, 0.1 mM) and NG-monomethyl-L-arginine (L-NMMA, 0.1 mM) both caused no further contraction in arteries precontracted with U46619 (3 nM) and were in general, poor inhibitors of responses to EDRF agonists. L-NMMA, but not L-NOARG,caused small but significant decreases in the maximum responses to substance P, bradykinin (18.5 +/- 6.9% and 27.6 +/- 10.9% relaxation with L-NMMA and L-NOARG, respectively), histamine and A23187 (P<0.05). The analogues had no effect on SNP responses.6. In conclusion, EDRF release in human isolated coronary artery is only poorly antagonized by the nitric oxide synthase inhibitors L-NOARG and L-NMMA. These results indicate that either the nitricoxide transduction pathway present in human coronary artery is different from that in other tissues or that another factor(s) (e.g. endothelium-derived hyperpolarizing factor) is also released in response to EDRF-releasing agents and augments the relaxation to nitric oxide.
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PMID:Pharmacological reactivity of human epicardial coronary arteries: characterization of relaxation responses to endothelium-derived relaxing factor. 788 60

Hirschsprung's disease (HSCR) is characterized by a non-propulsive distal intestinal segment (usually colon) leading to a functional obstruction. An absence of ganglia in the affected segment explains the synonymous term "aganglionosis coli". The lack of peristalsis is partly due to a deficient intestinal smooth muscle relaxation based on an absence of non-adrenergic, non-cholinergic (NANC) inhibitory innervation. Morphological studies using conventional microscopy, immunohistochemistry and immunochemistry against general neuronal markers and neuropeptides have been used to characterize the disturbed NANC innervation in HSCR. An increased cholinergic and adrenergic innervation is registered in the aganglionic segment in spite of the lack of neuronal cell bodies: Neuropeptides like vasoactive intestinal peptide (VIP), pituitary adenylate cyclase-activating polypeptide (PACAP), gastrin-releasing peptide (GRP), calcitonin gene-related peptide (CGRP), substance P (SP), enkephalins and galanin immunoreactive nerve fibres are all reduced in number in the aganglionic segment. In contrast, neuropeptide Y (NPY)-containing nerve fibres are increased in number in the diseased segment, probably reflecting the adrenergic hyperinnervation. General neuronal markers including chromogranins have been used to map the neuronal network in the HSCR intestine and also to investigate the endocrine cell system in the intestinal mucosa. Nitric oxide is a potent component of the NANC inhibitory innervation and its synthesizing enzyme, nitric oxide synthase (NOS), is shown to be almost absent in the neuronal system in aganglionic intestine.
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PMID:Hirschsprung's disease--immunohistochemical findings. 798 7

Using in situ hybridization, the expression of the mRNA for a neuropeptide Y (NPY) receptor, was studied in lumbar (L) 4 and 5 dorsal root ganglia (DRGs) of normal rats and at various intervals after unilateral sciatic nerve transection. Twenty percent of all normal DRG neurons were NPY receptor mRNA-positive, and the majority of these neurons were of the small type, with only a few labelled medium-sized and large neurons. In L5 normal ganglia NPY receptor mRNA colocalized with substance P, calcitonin gene-related peptide and galanin mRNAs in small neurons, but not in medium-sized or large neurons containing these peptides. NPY receptor mRNA was not observed in somatostatin or nitric oxide synthase mRNA-positive neurons. Sciatic nerve transection induced a marked decrease in NPY receptor mRNA levels. However, in parallel there was a transient increase in the number of NPY receptor mRNA-positive small neuron profiles, but the intensity of labelling was mostly very low, although a few strongly labelled, small neuron profiles were also encountered. In addition, axotomy caused a marked increase in the number of NPY receptor mRNA-positive large neuron profiles in the ipsilateral DRGs, and they constituted 15-20% of counted DRG neuron profiles and 45-65% of counted large neuron profiles, 7-28 days after axotomy. In L5 DRGs, ipsilateral to the axotomy, NPY receptor mRNA colocalized with NPY mRNA in many large and some medium-sized neuron profiles, with galanin mRNA in some small, medium-sized and large neuron profiles and with vasoactive intestinal polypeptide mRNA in some small and medium-sized neuron profiles and a few large profiles. Occasionally, NPY receptor mRNA was observed in nitric oxide synthase mRNA-positive small neurons. In the dorsal horn, NPY receptor mRNA-positive small neurons were concentrated in lamina II at L4 and L5 levels, and were scattered in deeper laminae. No marked changes were observed ipsilateral to the axotomy. No NPY receptor mRNA-positive cells were found in the normal rat gracile nucleus, or in this nucleus after axotomy. These results show that a NPY receptor may be a prejunctional receptor in primary afferent neurons and play a role in the modulation of somatosensory information, both in normal and lesioned primary afferent DRG cells. However, axotomy induced a distinct shift in NPY receptor mRNA expression from small to large neurons, indicating that sensitivity to NPY is switched from one modality to another.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Effect of peripheral axotomy on expression of neuropeptide Y receptor mRNA in rat lumbar dorsal root ganglia. 813 Sep 32

Sodium nitroprusside (NaNP) was used as a donor of nitric oxide (NO) to investigate actions of NO on electrical and synaptic behavior of single myenteric neurons in guinea pig small intestine. NaNP (10 microM-1 mM) did not affect resting membrane properties of the neurons, except for an occasional decrease in input resistance and hyperpolarization attributable to suppression of excitatory transmitter release. NaNP did not alter fast nicotinic neurotransmission but suppressed noncholinergic slow excitatory postsynaptic potentials (slow EPSPs) in a concentration-dependent manner. Pretreatment with either methylene blue or oxyhemoglobin reduced the inhibitory action of NaNP on the slow EPSPs. Slow EPSP-like responses to microejected substance P or 5-hydroxytryptamine were unaffected by NaNP. The nitric oxide synthase inhibitor, N omega-nitro-L-arginine methyl ester, did not affect resting membrane excitability or excitatory synaptic events in any of the myenteric neurons. The results suggest that NO may not be released extensively as a neurotransmitter at synapses within the myenteric plexus. If myenteric neurons are exposed to NO released from nonneural sources, then the principal action is expected to be presynaptic inhibition of slow synaptic excitation.
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PMID:Actions of nitric oxide-generating sodium nitroprusside in myenteric plexus of guinea pig small intestine. 823 18

Histochemical staining was used to demonstrate that intramural neurons of the gallbladder contain NADPH-diaphorase, and therefore are likely to produce nitric oxide. A subset of the neurons in the gallbladders of the guinea pig, gerbil, opossum, dog, and human stained positively for the enzyme. In the guinea pig, all neurons that were immunoreactive for vasoactive intestinal peptide (VIP), also contained NADPH-diaphorase. Furthermore, neurons that were immunoreactive for neuropeptide Y, which have been shown to be immunoreactive for substance P and somatostatin as well, rarely contained NADPH-diaphorase. It is suggested that the VIP/NADPH-diaphorase-containing neurons represent intrinsic inhibitory motor neurons of the gallbladder, and that these neurons may have a role in the relaxation of the muscularis during gallbladder filling.
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PMID:NADPH-diaphorase and VIP are co-localized in neurons of gallbladder ganglia. 831 13

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