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)

1 The characterization of the B1 kinin receptor, and some mediators involved in the inflammatory response elicited by intrathoracic (i.t.) administration of des-Arg9-bradykinin (BK) in the mouse model of pleurisy, was investigated. 2 An i.t. injection of des-Arg9-BK (10-100 nmol per site), a selective B1 agonist, caused a significant and dose-related increase in the vascular permeability observed after 5 min, which peaked at 1 h, associated with an increase in cell influx, mainly neutrophils, and, to a lesser extent, mononuclear cell influx, peaking at 4 h and lasting for up to 48 h. The increase in fluid leakage caused by des-Arg9-BK was completely resolved 4 h after peptide injection. I.t. injection of Lys-des-Arg9-BK (30 nmol per site) caused a similar inflammatory response. 3 Both the exudation and the neutrophil influx elicited by i.t. injection of des-Arg9-BK were significantly antagonized (P<0.01) by an i.t. injection of the selective B1 antagonists des-Arg9-[Leu8]-BK (60 and 100 nmol per site) or des-Arg9-NPC 17731 (5 nmol per site), administered in association with des-Arg9-BK (P<0.01), or 30 and 60 min before the cellular peak, respectively. In contrast, an i.t. injection of the B2 bradykinin selective receptor antagonist Hoe 140 (30 nmol per site), at a dose which consistently antagonized bradykinin (10 nmol per site)-induced pleurisy, had no significant effect on des-Arg9-BK-induced pleurisy. 4 An i.t. injection of the selective tachykinin receptor antagonists (NK1) FK 888 (1 nmol per site), (NK2) SR 48968 (20 nmol per site) or (NK3) SR 142801 (10 nmol per site), administered 5 min before pleurisy induction, significantly antagonized neutrophil migration caused by i.t. injection of des-Arg9-BK. In addition, FK 888 and SR 142801, but not SR 48968, also prevented the influx of mononuclear cells in response to i.t. injection of des-Arg9-BK (P<0.01). However, the NK3 receptor antagonist SR 142801 (10 nmol per site) also significantly inhibited des-Arg9-BK-induced plasma extravasation. An i.t. injection of the calcitonin gene-related peptide (CGRP) receptor antagonist CGRP8-37 (1 nmol per site), administered 5 min before pleurisy induction, inhibited des-Arg9-BK-induced plasma extravasation (P<0.01), without significantly affecting the total and differential cell migration. 5 The nitric oxide synthase inhibitors L-NOARG and L-NAME (1 pmol per site), administered 30 min beforehand, almost completely prevented des-Arg9-BK (i.t.)-induced neutrophil cell migration (P<0.01), and, to a lesser extent, mononuclear cell migration (P<0.01). The D-enantiomer D-NAME had no effect on des-Arg9-BK-induced pleurisy. At the same dose range, L-NOARG and L-NAME inhibited the total cell migration (P<0.01). L-NAME, but not L-NOARG caused significant inhibition of des-Arg9-BK-induced fluid leakage. Indomethacin (1 mg kg(-1), i.p.), administered 1 h before des-Arg9-BK (30 nmol per site), inhibited the mononuclear cell migration (P<0.05), but, surprisingly, increased the neutrophil migration at 4 h without interfering with plasma extravasation. The administration of terfenadine (50 mg kg(-1), i.p.), 30 min before des-Arg9-BK (30 nmol per site), did not interfere significantly with the total cell migration or with the plasma extravasation in the mouse pleurisy caused by i.t. injection of des-Arg9-BK. 6 Pretreatment of animals with the lipopolysaccharide of E. coli (LPS; 10 microg per animal, i.v.) for 24 h did not result in any significant change of the inflammatory response induced by i.t. injection of des-Arg9-BK compared with the saline treated group. However, the identical treatment of mice with LPS resulted in a marked enhancement of des-Arg9-BK induced paw oedema (P<0.01). 7 In conclusion, we have demonstrated that the inflammatory response induced by i.t. injection of desArg9-BK, in a murine model of pleurisy, is mediated by stimulation of constitutive B1 receptors. (These responses are largely mediated by release of neuropeptides such as substanceP or CGRP and also by NO, but products derived from cyclo-oxygenase pathway and histamine seem not to be involved. Therefore, these results further support the notion that the B1 kinin receptor has an important role in modulating inflammatory responses, and it is suggested that selective B1 antagonists may provide therapeutic benefit in the treatment of inflammatory and allergic conditions.
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PMID:Characterization of the receptor and the mechanisms underlying the inflammatory response induced by des-Arg9-BK in mouse pleurisy. 948 17

In the present study, it was demonstrated that SP, neurokinin A (NKA), neurokinin B (NKB), SP methyl ester (SPME), [Ala5, beta-Ala8]-alpha-neurokinin fragment 4-10 (AANF) at 10(-8) M all caused contraction in non-contracted endothelium-intact arteries. SP- and SPME-induced contraction were reduced by removal of endothelium. All the peptides with the exception of AANF induced transient relaxation in the precontracted arteries. The relaxation were attenuated by removal of endothelium. The potency orders for endothelium-dependent contraction (EDC), -dependent relaxation (EDR) and -independent contraction (EIC) were SP > SPME >> NKA [symbol: see text] NKB [symbol: see text] AANF, SP > SPME > NKA > NKB >> AANF and NKA > AANF > NKB >> SP [symbol: see text] SPME, respectively. SP-induced EDC and EDR were attenuated by an NK1 antagonist but not by an NK2 antagonist. The SP-induced EIC was reduced by an NK2 antagonist. SP-induced EDC was attenuated by aspirin, OKY-046, and S-1452. The EDR was attenuated by L-NAME and methylene blue. The EDC induced by SPME was non-competitively attenuated by CP-99994, an NK1 antagonist. EDR was competitively inhibited by CP-99994. In conclusion, SP and related peptides caused EDC via NK1 receptors and TXA2 production, EDR via NK1 receptors and NO release and EIC via NK2 receptors in rabbit intrapulmonary arteries.
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PMID:[Tachykinin receptor subtypes involved in endothelium-dependent and -independent responses in rabbit intrapulmonary arteries]. 950 16

The effects of histamine, prostaglandin (PG) E2 and substance P (SP) on functions of nonadrenergic noncholinergic inhibitory (iNANC) nerves were examined in the guinea-pig tracheal muscle in vitro. In the presence of indometacin (10 mumol/l), atropine (2 mumol/l) and propranolol (1 mumol/l), field stimulation (FS) (1-80 Hz, 1 ms, 30 V for 45 s) was applied to the muscle strip under a condition where the same degree of contraction was produced by each agonist. Magnitudes of FS-induced relaxations were significantly smaller for the case of PGE2- or SP-produced contraction than those for the case of histamine-produced contraction. The FS-induced relaxations at lower stimulus frequencies (1-5 Hz) were suppressed by N omega-nitro-L-arginine methylester (L-NAME) (100 mumol/l) during histamine, although they were not affected by L-NAME during PGE2 or SP. Susceptibility of tracheal muscle to S-nitroso-N-acetylpenicillamine, a donor of nitric oxide (NO), was not different during PGE2 or histamine; it was significantly less during SP. FS-induced relaxation during histamine was suppressed by concomitant administration of PGE2 (10 nmol/l), however, not by concomitant administration of SP (30-100 nmol/l). These results suggest that PGE2 may inhibit release of NO from iNANC nerves in airways, whereas SP may suppress responsiveness of airway smooth muscle to the released NO. Results also indicate a possible involvement of these inflammatory mediators under conditions where airway iNANC nerves are impaired.
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PMID:Effects of prostaglandin E2 on nitric oxide-mediated nonadrenergic noncholinergic relaxations in the guinea-pig tracheal muscle. 952 31

The mechanism of prostaglandin E2-, prostaglandin F2alpha- and latanoprost acid (13,14-dihydro-17-phenyl-18,19,20-trinor-prostaglandin F2alpha)-induced relaxation of the rabbit submental vein was studied. Prostaglandin E2 caused maximum relaxation of endothelin-1 precontracted vessels (EC50: 1.8 x 10(-8) M). Much of the relaxation could be abolished by denuding the endothelium with the nitric oxide synthase inhibitor, L-NAME (N(G)-Nitro-L-arginine methylester). CGRP-(8-37) (calcitonin gene-related peptide fragment (8-37)), a calcitonin gene-related peptide receptor antagonist, exhibited a partial blocking effect, whereas the tachykinin NK1 receptor blocker, GR 82334 ([D-Pro9[Spiro-gamma-Lactam]Leu10,Trp11]physalaemin (1-11)), markedly attenuated the response. Both prostaglandin F2alpha and the relatively selective FP receptor agonist, latanoprost acid, caused relaxation of the veins to about 50% of the precontracted state in the presence of GR 32191B ([1R-[1alpha(Z),2beta,3beta,5alpha]]-(+)-7-[5-([1,1'-b iphenyl]-4-ylmethoxy)-3-hydroxy-2-(1-piperidinyl)cyclopentyl]-4-he ptenoic acid), a thromboxane receptor antagonist (EC50: for prostaglandin F2alpha 7.9 x 10(-9) M, and for latanoprost acid 4.9 x 10(-9) M). L-NAME, as well as denuding the endothelium, completely abolished the effect. In addition, most or at least a large part of the relaxation was also blocked by CGRP-(8-37) as well as GR 82334. These results indicate that the FP receptor-mediated relaxation of veins is based on release of nitric oxide in addition to involvement of calcitonin gene-related peptide and substance P, or some other tachykinin, probably released from perivascular sensory nerves. The more pronounced relaxation induced by prostaglandin E2 could be due to vasodilator EP receptors in the smooth muscle layer of the veins.
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PMID:Mechanism of prostaglandin E2-, F2alpha- and latanoprost acid-induced relaxation of submental veins. 953 15

1. The aim of the present study was to characterize neurogenic and pharmacological responses of human penile deep dorsal vein and to determine whether the responses are mediated by nitric oxide from neural or endothelial origin. 2. Ring segments of human penile deep dorsal vein were obtained from 22 multiorgan donors during procurement of organs for transplantation. The rings were suspended in organ bath chambers for isometric recording of tension. We then studied the contractile and relaxant responses to electrical field stimulation and to vasoactive agents. 3. Electrical field stimulation (0.5-2 Hz) and noradrenaline (3 x 10(-10)-3 x 10(-5) M) caused frequency- and concentration-dependent contractions that were of greater magnitude in veins denuded of endothelium. The inhibitor of nitric oxide synthesis NG-nitro-L-arginine methyl ester hydrochloride (L-NAME, l0(-4) M) increased the adrenergic responses only in rings with endothelium. 4. In preparations contracted with noradrenaline in the presence of guanethidine (10(-6) M) and atropine (10(-6) M), electrical stimulation induced frequency-dependent relaxations. This neurogenic relaxation was prevented by L-NAME, methylene blue (3 x 10(-5) M) and tetrodotoxin (10(-6) M), but was unaffected by removal of endothelium. 5. Acetylcholine (10(-8)-3 x 10(-5) M) and substance P (3 x 10(-11) -3 x 10(-7) M) induced endothelium-dependent relaxations. In contrast, sodium nitroprusside (10(-9)-3 x 10(-5) M) and papaverine (10(-8) 3 x 10(-5) M) caused endothelium-independent relaxations. 6. The results provide functional evidence that the human penile deep dorsal vein is an active component of the penile vascular resistance through the release of nitric oxide from both neural and endothelial origin. Dysfunction in any of these sources of nitric oxide should be considered in some forms of impotence.
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PMID:Neurogenic contraction and relaxation of human penile deep dorsal vein. 969 Aug 72

1. This study examined the effects of sodium rhein (0.03-30 microM) on the contractions of the isolated circular muscle of guinea-pig ileum induced by acetylcholine (100 nM), substance P (3 nM) and electrical stimulation (10 Hz for 0.3 s, 100 mA, 0.5 ms pulse duration). The effect of sodium rhein was also evaluated on the ascending excitatory reflex using a partitioned bath (oral and anal compartments). Ascending excitatory enteric nerve pathways were activated by electrical field stimulation (10 Hz for 2 s, 20 mA, 0.5 pulse duration) in the anal compartment and the resulting contraction of the guinea-pig intestinal circular muscle in the oral compartment was recorded. 2. Sodium rhein (0.3, 3 and 30 microM) significantly potentiated (52+/-11% at 30 microM) acetylcholine-induced contractions. In the presence of tetrodotoxin (0.6 microM) or omega-conotoxin GVIA (10 nM) sodium rhein (3 and 30 microM) did not enhance, but significantly reduced (49+/-10% and 44+/-8%, respectively, at 30 microM) acetylcholine-induced contractions. 3. Sodium rhein (0.3, 3 and 30 microM) significantly increased (65+/-11% at 30 microM) substance P-induced contractions. In the presence of tetrodotoxin (0.6 microM), omega-conotoxin GVIA (10 nM) or atropine (0.1 microM), sodium rhein (3 and 30 microM) significantly reduced (50+/-10%, 55+/-8% and 46+/-10%, respectively, at 30 microM) substance P-induced contractions. 4. NG-nitro-L-arginine methyl ester (L-NAME, 100 microM) abolished the potentiating effect of sodium rhein on acetylcholine and substance P-induced contractions. At the highest concentration (30 microM), sodium rhein, in presence of L-NAME, reduced the acetylcholine (30+/-6%)- or substance P (36+/-6%)-induced contractions. 5. Sodium rhein (30 microM) significantly potentiated (29+/-9%) the electrically-evoked contractions. L-NAME (100 microM), but not phentolamine, enhanced the effect of sodium rhein. Sodium rhein (30 microM) significantly increased (32+/-9%) the ascending excitatory reflex when applied in the oral, but not in the anal compartment. 6. These results indicate that sodium rhein (i) activates excitatory cholinergic nerves on circular smooth muscle presumably through a facilitation of Ca2+ entry through the N-type Ca2+ channel, (ii) has a direct inhibitory effect on circular smooth muscle and (iii) does not affect enteric ascending neuroneural transmission. Nitric oxide could have a modulatory excitatory role on sodium rhein-induced changes of agonist-induced contractions and an inhibitory modulator role on sodium rhein-induced changes of electrically-induced contractions.
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PMID:Effect of sodium rhein on electrically-evoked and agonist-induced contractions of the guinea-pig isolated ileal circular muscle. 969 Aug 77

Since nitric oxide has been found to control the function of many organs of the body by the non-adrenergic, non-cholinergic branch of the autonomic nervous system, we hypothesized that it might play a role in salivary secretion. Therefore, we investigated the distribution of nitric oxide synthase (NOS) throughout the submaxillary gland and also studied the ability of inhibitors of NOS to interfere with salivation induced by a cholinergic agonist, metacholine, and by a polypeptide, substance P. The secretory responses were determined in rats anesthetized with chlorolose following intravenous injection of the various pharmacological agents. There was no basal flow of saliva and dose-response curves were obtained by sequential intravenous injection of increasing doses of the drugs. Then, in the same animal, the same dose-response curves were performed in the presence of NOS inhibitors. L-Nitro-arginine-methyl-ester (L-NAME; 20 mg/kg) produced an over 50% inhibition of the dose-related salivation induced by metacholine. Similar results were produced with L-NG-monomethyl-L-arginine (L-NMMA; 5 mg/kg). The salivation induced by much lower molar doses of substance P was dramatically greater than that obtained with metacholine. The response to substance P was almost completely inhibited by L-NMMA at the lowest dose (0.3 mg/kg), but at higher doses (1 mg/kg), the inhibition was only around 60% and at the highest dose (3 mg/kg) only about 20%. In control rats, there were roughly equal amounts of calcium-dependent and calcium-independent NOS in the gland at this time. At the end of the experiment, the effect of the inhibitor of NOS, L-NMMA, on the NOS activity in the submandibular gland was determined. At this time, the Ca2+-dependent NOS was decreased and the Ca2+-independent NO was increased. The prior injection of L-NMMA reduced calcium-dependent NOS activity by approximately 70% but calcium-independent activity by only 30%. These results indicate that, at least at the end of the experiment, the blockade of NOS imposed by NMMA was incomplete. This could account in part for the failure of the inhibitors to block completely the stimulatory effect of the two secretagogues. Analysis of the distribution of NOS in the salivary gland revealed that it was not present in the acinar cells, but in neural terminals within the gland and also in the ductile system which contained neural (n) NOS in the apical membrane of the excretory and striated ducts, the cytoplasm of granular convoluted tubules and, to a lesser extent, in the cytoplasm of excretory and striated ducts. Macrophage (inducible) NOS was also found not only in the macrophages, but also in the tubules and ducts. Since drugs were used that would act on the receptors in the gland, the role of NO in our conditions is probably mediated by nNOS and iNOS in the ductile and tubular structures. Since iNOS would already be active, it is unlikely to play a role in this acute secretory activity. Rather the nNOS in these non-neural cells is probably activated by muscarinic or K1 receptors by metacholine and substance P, respectively, leading to an increase in intracellular free calcium that activates NOS leading to the generation of cGMP that opens ion channels to initiate the secretory process.
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PMID:Role of nitric oxide in salivary secretion. 973 Jun 90

The aim of the study was to evaluate both morphologically and functionally the distal large intestine from the aganglionic lethal spotted (ls/ls) mutant mouse and their healthy litter mates. Immunohistochemically, the aganglionic murine distal large intestine showed an absence of nerve cell bodies, and a reduction or absence of nerve fibers displaying immunoreactivity (IR) for protein gene product (PGP), nitric oxide synthase (NOS), vasoactive intestinal peptide (VIP), substance P (SP), galanin and calcitonin gene-related peptide (CGRP), while in the ganglionic large intestine these neuronal populations were abundantly present throughout the gut wall. Pathological nerve trunks within the afflicted intestinal segment were found to harbour PGP- and neuropeptide Y (NPY)-IR nerve fibers. Smooth muscle specimens from the distal part of the murine distal large intestine were mounted as ring preparations in vitro and subjected to electrical field stimulation (EFS). EFS (4-20 Hz) caused a contraction in both ganglionic and aganglionic intestine. After pretreatment with atropine EFS (20 Hz) evoked a biphasic motor response, a relaxation followed by a contraction in control specimens, while no motor response was seen in aganglionic intestine. Addition of the NOS-inhibitor N-nitro-L-arginine methyl ester (L-NAME) caused per se a weak and transient contraction and reduced the amplitude of the EFS-induced relaxation in control intestine.
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PMID:Functional and morphological examination of ganglionic and aganglionic distal gut from the lethal spotted mouse. 978 48

Blood flow in salivary glands is regulated mainly by sympathetic and parasympathetic nerve activity. This study was carried out to determine the relative contributions of cholinergic, adrenergic and peptidergic neurotransmitters to the control of submandibular blood flow in the rat using laser-Doppler flowmetry. Parasympathetic impulses caused a rapid atropine-sensitive vasodilation followed by a maintained increase in blood flow, a portion of which remained in the presence of both atropine and L-NAME. In contrast, continuous sympathetic stimulation caused an intense vasoconstriction that was followed by a prolonged after-vasodilation. The same number of impulses delivered in bursts resulted in a cyclic vasoconstriction followed by a rapid vasodilation. Alpha-adrenoceptor blockade largely abolished the vasoconstriction, and the duration and magnitude of the after-vasodilation were reduced. Inhibition of nitric oxide (NO) synthase by L-NAME reduced the vasodilation. The addition of a beta-adrenoceptor antagonist eliminated the sympathetic vasodilator response, but in the presence of complete alpha- and beta-adrenoceptor blockade and L-NAME a small vasoconstriction remained. We conclude that the vasoconstrictor effects of sympathetic stimulation of the rat submandibular gland are due to alpha-adrenergic receptor activation and probably also NPY, and the vasodilator effects are due to NO and beta-adrenergic activity. Parasympathetic vasodilation was due to NO-independent mechanisms mediated by acetylcholine and substance P, and NO-dependent mechanisms mediated by VIP.
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PMID:Neural regulation of blood flow in the rat submandibular gland. 982 25

Release of substance P (SP) from sensory nerve endings of the tracheobronchial system modulates airway smooth muscle contraction and may cause relaxation of precontracted airways. We sought to elucidate the effect of postnatal maturation on SP-induced relaxation of precontracted airways and determine the roles of endogenously generated nitric oxide (NO) and prostaglandins (PGs). Cylindrical airway segments were isolated from the midtrachea of rats at four different ages, 1, 2, and 4 wk and 3 mo, and contracted to 50-75% of the maximum response induced by bethanechol. SP was then administered in the absence and presence of the NO synthase inhibitor NG-nitro-L-arginine methyl ester (L-NAME), the PG inhibitor indomethacin, or both. Relaxation of airways with SP decreased significantly with advancing postnatal age. SP-induced tracheal relaxation was consistently attenuated by pretreatment with L-NAME, indomethacin, or both. In a different group of animals, L-NAME significantly attenuated the relaxant response of airways to PGE2 exposure, but indomethacin had no significant effect on the relaxant response to exogenous NO. We conclude that SP induces a relaxant effect on precontracted airway smooth muscle, which decreases with advancing age and is mediated via SP-induced release of NO and/or PG.
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PMID:Mechanism for substance P-induced relaxation of precontracted airway smooth muscle during development. 988 55

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