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 guinea-pig intestine was found to harbor nerve fibers containing immunoreactive cholecystokinin (CCK), gastrin-releasing peptide (GRP), neurotensin or beta-endorphin. Such fibers occurred in the myenteric and submucous ganglia and in the smooth muscle. GRP- and CCK-fibers, in addition, were found in the mucosa. Following colchicine treatment, neuronal perikarya in the myenteric ganglia displayed CCK-, GRP-, or beta-endorphin immunoreactivity. CCK-immunoreactive perikarya were located also in the submucous ganglia. Neurotensin-immunoreactive cell bodies could not be detected. The presence of immunoreactive neuronal perikarya in intramural ganglia indicates that CCK-, GRP- and beta-endorphin-containing fibers are intrinsic to the gut wall. GRP, neurotensin, and beta-endorphin were identified in extracts of smooth muscle by immuno-chemical and chromatographic analysis. CCK-8, GRP and neurotensin contracted the isolated taenia coli. Tetrodotoxin reduced the response to CCK-8 but not that to GRP and neurotensin, suggesting that the two latter peptides act directly on smooth muscle receptors. The effect of CCK-8 is partly mediated by cholinergic nerves, since not only tetrodotoxin but also atropine greatly reduced the CCK-8-induced contractile response. The substance P (SP) antagonist, (D-Pro2, D-Trp7,9)-SP1-11 had no effect on the CCK-8-induced contraction of the taenia. CCK-8 enhanced the SP-mediated (atropine-resistant) contractile response to electrical stimulation but not that mediated by acetylcholine. beta-Endorphin had no effect on the tension of the muscle but reduced the response to electrical stimulation (cholinergic as well as SP-mediated) through a naloxone-sensitive mechanism. While CCK-8 and beta-endorphin seem to play neuromodulatory roles in the taenia coli, the significance of GRP and neurotensin remains enigmatic.
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PMID:Neuronal cholecystokinin, gastrin-releasing peptide, neurotensin, and beta-endorphin in the intestine of the guinea pig. Distribution and possible motor functions. 632 15

The aims of this study were (1) to define the effects of CCK-8s and related peptides on chicken ileum longitudinal smooth muscle and (2) to explore the mechanisms by which such effects occur. The effects of CCK-8s were assayed in vitro on chicken longitudinal ileal strips. CCK-8s produced contraction of ileal strips (EC50 8.8.10(-9) M). CCK-8ns and CCK-4 did not have remarkable contractile effects even when added at concentrations 200-times higher than the EC50 for CCK-8s. L365,260 slightly inhibited the effects of CCK-8s whereas L364,718 was ineffective. Tetrodotoxin (10(-6) M) markedly decreased the effects of CCK-8s. Atropine (10(-6) M) did not modify the neurally mediated effects of CCK-8s, whereas ketanserin (10(-5) M) decreased the response to CCK-8s. Substance P-desensitized preparations exhibited reduced responses to CCK-8s. Our results indicate that CCK receptors present in chicken ileum behave similarly but not identically to the CCK-A receptor described in mammals. Most of these CCK receptors are neurally located but a minor proportion is also present on smooth muscle. The neurally mediated response to CCK-8s does not involve cholinergic mechanisms, but serotonin and substance P releasing neurons.
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PMID:Mechanisms mediating the effects of cholecystokinin on avian small intestine longitudinal smooth muscle. 752 Jan 86

We studied effects of nicotinic, muscarinic, serotoninergic, dopaminergic, adrenergic, vasoactive intestinal peptide (VIP) antagonists, VIP, nitric oxide-synthase inhibitors and stimulators alone and in combination with tetrodotoxin on substance P (SP)-stimulated intraluminal tone of the isolated proximal, middle and distal rat colon. Tetrodotoxin significantly enhanced SP-stimulated intraluminal tonic pressure in the distal, but not in the middle and proximal colon. N omega-nitro-L-arginine methylester enhanced SP stimulation in all colonic segments, whereas L-arginine inhibited it partially and D-arginine did not affect it. Atropine and hexamethonium partially inhibited SP stimulation of the middle and distal colon. Tetrodotoxin completely abolished the effects of L-arginine, atropine and/or hexamethonium on SP stimulation. Propranolol, phentolamine, reserpine, telenzepine, naloxone, Mr 2266, a VIP antagonist (H9935) and ketanserin did not affect SP-induced colonic muscle stimulation. VIP strongly reduced SP-stimulated intraluminal pressure in all colonic segments. VIP(10-28), a putative VIP antagonist, produced similar inhibition of SP-stimulated intraluminal tonic pressure, but did not affect N omega-nitro-L-arginine methylester-induced enhancement of SP-stimulated intraluminal pressure in any segments. It is concluded that in the isolated rat colon SP-stimulated intraluminal pressure (mainly generated by circular muscles) by a direct action on colonic muscles over the whole colonic length and by simultaneous activation of neural cholinergic excitatory pathways in the middle and distal, of noncholinergic excitatory pathways in the proximal colonic segment, and by activation of nitric oxide-dependent inhibitory neural pathways. VIP seems not to be directly involved in this inhibitory pathway.
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PMID:Substance P activates rat colonic motility via excitatory and inhibitory neural pathways and direct action on muscles. 752 33

We have investigated the role of the colonic nervous system in regulating the release of peptide YY (PYY) from the isolated perfused rabbit distal colon. In addition, we have studied the role of cAMP- and Ca(2+)-dependent mechanisms in mediating the release of PYY. We investigated three agents which stimulate increases in intracellular cAMP (vasoactive intestinal polypeptide (VIP), cholera toxin, and forskolin) and three agents which raise intracellular Ca2+ concentrations (substance P, carbachol, and the calcium ionophore A23187). The three cAMP-dependent agents, VIP (10(-7) M and 3 x 10(-7) M), cholera toxin (100 micrograms), and forskolin (10(-6) M and 10(-5) M) significantly stimulated release of PYY (P < 0.05). Tetrodotoxin (3 x 10(-6) M) did not alter forskolin (10(-5) M) stimulated release of PYY. Substance P (10(-9) M and 10(-8) M), carbachol (10(-5) M), and A23187 (10(-6) M) failed to stimulate the release of PYY. These results suggest that the colonic neurotransmitter VIP participates in the modulation of PYY release from rabbit distal colons. Further, these studies suggest that release of PYY is mediated by cAMP-dependent pathways.
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PMID:Cyclic AMP-mediated release of peptide YY (PYY) from the isolated perfused rabbit distal colon. 769 25

An isolated perfused lung model was developed in which the mechanisms of regulation of sensory neuropeptide overflow and bronchoconstrictor responses evoked by antidromic vagal nerve stimulation or various irritants could be studied. For further comparison, non-adrenergic non-cholinergic (NANC) bronchoconstriction was also studied in guinea-pig isolated bronchus and in vivo. In the isolated guinea-pig lung, spontaneous strong postmortem bronchoconstriction occurred; this had to be overcome by the beta 2-adrenoceptor agonist terbutaline. Vagal stimulation, capsaicin, resiniferatoxin (RTX), nicotine, and pH 5 buffer all caused sensory peptide release and bronchoconstriction via a capsaicin-sensitive mechanism. Bradykinin and histamine also stimulated sensory peptide release but evoked bronchoconstriction mainly via capsaicin-resistant mechanisms. Stimulation at low frequency (1 Hz) caused similar degree of sensory nerve activation (peptide release in perfused lung and NANC bronchial contraction in bronchus) as stimulation at 10 Hz. Dactinomycin and the non-peptide SR 48968 selectively blocked the bronchoconstriction induced by neurokinin 2 (NK2) receptor agonists and also depressed that induced either by vagal stimulation or capsaicin, with no prejunctional effect on the overflow of calcitonin gene-related peptide (CGRP). Furthermore, SR 48968 inhibited the bronchoconstriction to citric acid aerosol. The NK1 antagonist CP 96345 had only marginal effects on NANC bronchoconstriction. Tetrodotoxin (TTX) and omega-conotoxin (CTX) inhibited neuropeptide release and bronchoconstriction caused by vagal stimulation or a low concentration of capsaicin but only marginally attenuated the effects evoked by a high concentration of capsaicin, or nicotine. Prejunctional alpha 2-adrenoceptor or opiate receptor activation inhibited the neuropeptide release and bronchoconstriction induced by vagal stimulation or a low concentration of capsaicin. Ruthenium red had a selective inhibitory effect on the overflow of neuropeptides [CGRP, neurokinin A (NKA)] and bronchoconstriction induced by capsaicin and its analogue RTX but not on responses induced by vagal stimulation, nicotine, bradykinin and histamine. It also inhibited CGRP and NKA release and bronchoconstriction caused by pH 5 buffer in lung, as well as cough and nasal irritation provoked by citric acid in vivo. The capsaicin receptor antagonist capsazepine inhibited peptide (CGRP, NKA) release and bronchoconstriction produced by capsaicin but not that evoked by vagal stimulation, nicotine and bradykinin, suggesting selectivity. Citric acid (in vivo) and pH 5 buffer (in vitro) produced bronchoconstriction via activation of capsaicin-sensitive sensory nerves. Interestingly, capsazepine also markedly depressed peptide overflow and bronchoconstriction caused by pH 5 buffer in isolated guinea-pig lung.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regulation of neuropeptide release from pulmonary capsaicin-sensitive afferents in relation to bronchoconstriction. 769 42

The effects of neuropeptide Y (NPY) on LHRH release from an immortalized cell line were investigated using a flow-through cell culture superfusion system. Immortalized hypothalamic GT1-7 cells were cultured for 72 h and superfused for a total of 180 min. In initial experiments, discrete 5-min pulses of NPY (10(-12)-10(-5) M) were administered to the cells. A clear dose-dependent stimulatory effect on NPY on LHRH release from the cells was observed with a calculated 50% effectiveness concentration of 33 nM. The stimulatory effects of brief NPY exposure were rapid and robust, e.g. reaching and maintaining levels of 173% over baseline for 20 min at the 10(-7) dose. The lowest dose of NPY that showed a significant effect was 10(-10) M; maximal responses were observed at 10(-6) M and reached a plateau thereafter. Control pulses of Dulbecco's modified Eagle's medium (DMEM) and 10(-6) M substance P or arg-vasopressin were also presented to the cells to serve as controls for our pulse protocol, and these challenges produced no significant LHRH responses. The NPY receptor antagonists, PYX1 and PYX2, at 10(-8) M, completely blocked the observed NPY responses in these cells. To assess the NPY receptor subtypes that mediate the NPY effects pharmacologically, GT1-7 cells were challenged with a Y1 receptor agonist, (Leu31Pro34)NPY, a Y2 receptor agonist, NPY(13-36), or peptide YY, at doses 10(-12)-10(-5) M. All four peptides stimulated LHRH release from GT1-7 cells with a rank-ordered potency of NPY = peptide YY > Y1 agonist = Y2 agonist. To examine possible signal transduction mechanism(s) involved in mediating this effect, pertussis toxin, RpcAMPs (cyclic adenosine-3'5'-monophosphothioate Rp diastereomer), Ca(2+)-free DMEM and TMB-8 (3, 4, 5-trimethoxybenzoic acid 8-(diethylamino) octylester) were used to treat the cells before and during superfusion with NPY. Treatment with pertussis toxin, RpcAMPs, and Ca(2+)-free DMEM did not significantly alter NPY-stimulated LHRH release responses to 10(-7) M NPY. However, the addition of 100 microM and 250 microM TMB-8 to Ca(2+)-free DMEM almost completely blocked this NPY effect, as did 10 microM ryanodine. Finally, the locus of action for this NPY effect was examined using tetrodotoxin to reduce action potential propagation in the GT1-7 cells. Tetrodotoxin treatment blocked the LHRH response to NPY by more than 50%.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Neuropeptide Y stimulates luteinizing hormone-releasing hormone release from superfused hypothalamic GT1-7 cells. 792 25

1. In the presence of atropine (1 microM) and guanethidine (3 microM), electrical field stimulation (EFS) of the rat isolated urinary bladder for 30 s induced a frequency-dependent (1-30 Hz) nonadrenergic non-cholinergic (NANC) triphasic contraction characterized by a peak response (within 10 s from onset of stimulation), a late response (determined as the tension developed at the end of the stimulation period) and a prolonged post-stimulus 'off' response. The latter peaked at 2-6 min from the end of the stimulation period. At 10 Hz, the amplitude of the three responses averaged 89 +/- 6, 76 +/- 6 and 18 +/- 3% of the response to 40 mM KCl, respectively. Tetrodotoxin (1 microM) abolished all contractile responses to EFS. 2. In capsaicin-pretreated bladder strips (10 microM for 15 min) the amplitude of the peak response to EFS (1-30 Hz for 30 s) was unchanged, the 'late' response to EFS was significantly reduced as compared to controls, and the post-stimulus response was absent, being replaced by a transient relaxation. 3. When varying train duration from 1 to 120 s at a frequency of 10 Hz, the differences between control and capsaicin-treated strips became evident for periods of stimulation > 10 s. 4. The tachykinin NK1 receptor antagonist, SR 140,333 (0.1-1 microM) had no effect on the peak response to EFS (10 Hz for 30 s) while it decreased significantly the late response at both concentrations tested (16 +/- 3 and 33 +/- 3% inhibition). At 1 micro M, SR 140,333 also significantly reduced (29 +/- 9% inhibition)the peak of the post-stimulus contraction. The tachykinin NK2 receptor antagonist, MEN 10,627(0. 1-1 9 MicroM) had no significant effect on the peak response to EFS (10 Hz for 30 s), and decreased the late response at 1 MicroM only (32 +/- 4% inhibition). MEN 10,627 inhibited the post-stimulus response at both concentrations tested and almost abolished it at 1 MicroM.5. The combined administration of SR 140,333 and MEN 10,627 (1 MicroM each) produced a small reduction(22 +/- 3% inhibition) of the peak response to EFS, a marked reduction (48 +/- 3% inhibition) of the late response and the abolition of the post-stimulus response which was replaced by a post-stimulus relaxation as observed in capsaicin-pretreated strips.6. SR 140,333 (0.1 and 1.0 MicroM) produced a large rightward shift in the concentration-response curve tothe NKI receptor agonist, [Sar9]substance P sulphone (apparent pKB 8.97 +/- 0.14), without affecting the response to the NK2 receptor-selective agonist, [Beta Ala8]neurokinin A (4-10). MEN 10,627 (0.1 and 1 MicroM)produced a large rightward shift of the concentration-response curve to [Beta Ala8]neurokinin A (4-10)(apparent pKB 8.95 +/- 0.16) without affecting the response to [Sarl substance P sulphone. SR 140,333 and MEN 10,627 (1.0 MicroM each) did not affect the contraction produced by exogenous ATP (1 mM).7. These findings provide evidence that the NANC contraction of the rat isolated urinary bladder to transmural nerve stimulation has two components, which are sharply differentiated by blockade of the efferent function of sensory nerves following in vitro capsaicin administration. The first component,probably mediated by endogenous ATP, is fully activated during short periods of nerve activity (< 10 s)and does not involve capsaicin-sensitive nerve afferents. The second component, which is capsaicin sensitive and tachykinin-mediated, is evident as a late 'on' response during nerve stimulation and as a post-stimulus 'off response for periods of stimulation >lOs. Activation of both NK1 and NK2receptors contributes to the capsaicin-sensitive responses.
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PMID:Evidence for a capsaicin-sensitive, tachykinin-mediated, component in the NANC contraction of the rat urinary bladder to nerve stimulation. 795 73

To test the hypothesis that different neurokinin receptors might be involved in the generation of either phasic or tonic muscular activity, selective ligands for the 6 neurokinin-1-receptor, [Sar9, Met(O2)]-SP, the neurokinin-2-receptor, [Nle10]-NKA4-10, and the neurokinin-3 receptor, [beta Asp4,MePhe7]-NKB4-10, were used to evaluate the excitatory effects of these agonists in the longitudinal rat ileal muscle in vitro. The excitatory effect was analyzed as total response (area under the curve) and as tonic or phasic (area under or within the peaks) activity. Substance P (SP, relative amount of phasic activity in comparison to total activity: 3 x 10(-8) M 87%, 3 x 10(-6) M 30%) and the neurokinin-2-receptor selective agonist [Nle10]-NKA4-10 (N-NKA: 3 x 10(-8) M 67%, 3 x 10(-6) M 59%) caused both tonic and phasic responses, with the percentage of phasic responses decreasing at higher concentrations. The neurokinin-1-receptor selective agonist [beta Ala4, Sar9, Met(O2)]-SP4-11 caused a predominantly tonic response with only a small phasic component (10(-8) M 27.1% 10(-6) M 13.8%). The selective neurokinin-3 receptor agonist [beta Asp4, MePhe7]-NKB4-10 caused a predominantly phasic motor response (SM-SP: 3 x 10(-8) M 98%, 3 x 10(-6) M 87%). Tetrodotoxin (TTX 10(-6) M), omega-conotoxin (CTX 10(-7) M) and atropine (10(-6) M) had no significant influence on the contractile responses to all four peptides, indicating a direct action on the smooth muscle cell.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Differential effects of selective neurokinin agonists on phasic and tonic activity in rat ileal longitudinal muscle. 811 33

Vasomotor neurons in the enteric nervous system release acetylcholine to dilate submucosal arterioles, but it is not known whether sensory nerves that project to these vessels also can provide a vasodilator innervation. This possibility was examined by determining the mechanism of action of capsaicin on guinea pig ileal submucosal arterioles in vitro. Capsaicin dilated all vessels that had been preconstricted with prostaglandin F2 alpha; mean effective concentration was 11 nM, and maximal dilation occurred at 60-200 nM. The vasodilation showed marked desensitization upon repeated applications of capsaicin. Tetrodotoxin blocked the capsaicin-induced vasodilation but not the desensitization observed upon repeated application. Muscarinic receptor antagonists did not affect the actions of capsaicin. Capsaicin did not dilate arterioles whose extrinsic sensory afferent fibers had been surgically removed. Substance P and human calcitonin gene-related peptide II dilated arterioles; these dilations were not inhibited after desensitization of the capsaicin-induced vasodilation. Thus capsaicin dilates submucosal arterioles by selectively activating extrinsic afferent fibers that release vasodilator transmitter substances onto these vessels.
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PMID:Mechanism of action of capsaicin on submucosal arterioles in the guinea pig ileum. 833 72

To investigate whether prostaglandin F2 alpha (PGF2 alpha) stimulates the release of tachykinins and whether the tachykinins play a role in the PGF2 alpha-induced bronchial contraction, we examined the contractile response to PGF2 alpha in the presence or absence of a neutral endopeptidase (NEP) inhibitor phosphoramidon in the guinea pig main bronchus in vitro. Because NEP effectively cleaves tachykinins, we hypothesized that the inhibition of NEP would enhance a PGF2 alpha-induced bronchial contraction if PGF2 alpha stimulates the release of tachykinins. Phosphoramidon significantly enhanced the concentration-response curve to PGF2 alpha. And it also significantly enhanced 10(-5) M PGF2 alpha-induced contraction. The enhancement was significantly attenuated in tissues where the tachykinins had been depleted by treatment with capsaicin. Furthermore, the enhancement of contraction was also significantly attenuated in the presence of tachykinin antagonist FK-224 (10(-5) M). Tetrodotoxin, a sodium-channel blocker that blocks nerve conduction, did not affect the enhancement. From these results we conclude that 1) PGF2 alpha causes the release of tachykinin-like substances, 2) these substances play a role in bronchial contraction in tissues where NEP activity is inhibited, and 3) nerve conduction is not necessary for the release of these substances in the guinea pig bronchus.
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PMID:Evidence that PGF2 alpha-induced contraction of isolated guinea pig bronchi is mediated in part by release of tachykinins. 859 95

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