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)

Classical techniques for studying modulations of microvascular permeability have a time resolution of minutes. A newly developed method allows continuous measurement of the electrical resistance of the microvascular membrane in vivo (Olesen & Crone 1983). The technique exploits microelectrodes impaled into the vascular lumen and is based on cable analysis of the vessel. It was applied to venules on the surface of the frog brain to test the effect on microvascular permeability of a wide variety of substances. The following agents increased ionic permeability reversibly within seconds: 5-hydroxytryptamine, bradykinin, ATP, ADP, AMP, phospholipase A2, arachidonic acid, leukotriene C4, oxygen-derived free radicals, ionophore A23187, and unbound Evans blue dye. An irreversible permeability increase was induced by protamine sulphate, neuraminidase, trypsin, melittin, and snake venoms from Crotalus durissus terrificus and Bothrops atrox. The following substances were without effect within an administration period of 5 min: histamine, epinephrine, putrescine, angiotensin II, vasoactive intestinal polypeptide (VIP), substance P, neurotensin, vasopressin, adenosine, PGE2, PGF2 alpha, prostacyclin (PGI2), leukotriene B4, albumin, heparin, plant cytokinins, hyaluronidase, thrombin, wasp venom. Variations in pH between 5.1 and 8.6 did not change permeability. Three conclusions are drawn from the observations: (1) the permeability of cerebral microvessels can be modulated by specific agents, (2) the agents induced changes in the endothelium within a few seconds, and (3) the rapid permeability increase induced by inflammatory mediators was less than two-fold and reversible within minutes.
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PMID:Substances that rapidly augment ionic conductance of endothelium in cerebral venules. 348 16

Endothelial cells of the arterial wall can generate vasodilator and vasoconstrictor substances. The prototype of a vasodilator substance formed primarily in the endothelium is prostacyclin, although its main target under physiological conditions are the platelets. In addition, the endothelial cells respond to a variety of neurohumoral mediators by the liberation of an unidentified substance(s) (endothelium-derived relaxing factor) with a potent inhibitory effect on vascular smooth muscle, presumably because it accelerates the production of cyclic GMP in the latter. Endothelium-derived relaxing factor is very unstable, and has an extremely short half-life. It is inactivated by plasma proteins and thus does not fulfill a hormonal role. A metabolite of arachidonic acid may be involved in the production of endothelium-derived relaxing factor. Among the neurohumoral mediators which release it are: acetylcholine (through activation of muscarinic receptors), adenosine di- and triphosphate (P2-purinergic receptors), bradykinin, histamine (H1- or H2-histaminergic receptors, depending on the species), serotonin (S1-serotonergic receptors), substance P, oxytocin, thrombin and vasopressin (V1-vasopressinergic receptors). The release of the factor can also be triggered by aggregating platelets (because they release adenine nucleotides and serotonin) and by increases in shear stress. It is likely that endothelium-dependent dilatation helps to prevent intraluminal coagulation in arteries with a normal intima. Absence, or dysfunction of the endothelium may favor the occurrence of vasospasm. Endothelium-dependent relaxations are reduced in atherosclerotic blood vessels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[The endothelium and arterial reactivity]. 349 May 30

Cultured bovine endothelial cells were seeded onto the intimal surface of endothelium-denuded rings of canine coronary artery. These rings did not previously relax to acetylcholine, substance P, bradykinin, and A23187. After seeding, the same rings relaxed to bradykinin and A23187, but not to acetycholine or substance P. Indomethacin pretreatment did not affect these responses. Cells from the same source were then grown to confluence on microcarrier beads, poured into small columns, and perfused with Krebs' solution. The perfusate from the columns was bioassayed on endothelium-denuded rings of coronary artery from either the dog or pig. Challenge of the column in the presence of indomethacin with either bradykinin or A23187 as well as acetylcholine or substance P caused release of a substance that relaxed both types of artery. Its activity half-life was 6.4 +/- 0.4 sec at 37 degrees C and it was hydrophilic and negatively charged. Prostacyclin (PGI2) as a candidate for EDRF was ruled out because 1) indomethacin failed to block its release and 2) the pig coronary artery, although insensitive to PGI2, relaxed to the endothelium-derived substance. These results show that, in response to a number of dilator drugs, cultured endothelial cells release a vascular relaxing substance (EDRF) that has characteristics similar to the EDRF of normal endothelium. The chemical nature of EDRF awaits clarification.
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PMID:Release and properties of endothelium-derived relaxing factor (EDRF) from endothelial cells in culture. 388 74

Estrogen-induced increases in uterine blood flow appear to require de novo protein or polypeptide synthesis. In the present experiments a chronically catheterized nonpregnant sheep preparation was used to determine the uterine vascular effects of vasoactive intestinal polypeptide (VIP), neurotensin, and substance P. These effects were compared to those of bradykinin and the most potent vasodilator prostaglandin, prostacyclin. An intra-arterial catheter was placed in a branch of the main uterine artery to allow administration of the compounds directly into the uterine vasculature. Uterine blood flow was continuously monitored via an electromagnetic flow transducer on the maine uterine arteries. VIP, bradykinin, and prostacyclin were equally potent as vasodilators of the uterine vasculature, while neurotensin and substance P were totally devoid of vasoactivity. Unlike estradiol, bradykinin and VIP produced significant changes in systemic arterial pressure and heart rate, suggesting that these compounds may not have responsible for mediating the uterine vascular response observed after estrogen. However, VIP was a potent uterine vasodilator and was able to totally ablate uterine contractile activity, suggesting that this endogenously occurring polypeptide may be important in regulating uterine hemodynamics and contractile activity.
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PMID:Effects of vasoactive polypeptides on the uterine vasculature. 616 38

In the dog anesthetized with pentobarbital, the effect of bradykinin on the lowering of renal blood flow produced by bolus injections of angiotensin II was studied. Injection into the renal artery of angiotensin II (0.06--0.50 microgram) caused vasoconstriction and decreased blood flow to the kidney in a dose-related manner. Renal arterial infusion of bradykinin (10 ng kg-1 min-1), prostaglandin (PG) E2 (4 ng kg-1 min-1) or PGI2 (4 ng kg-1 min-1) produced renal vasodilation and inhibited the vasoconstrictor effect of angiotensin II. However, renal arterial infusion of another vasodilatory peptide, substance P (2 ng kg-1 min-1), did not alter the effect of angiotensin II on the renal vasculature. Pretreatment of dogs with an inhibitor of PG synthesis, sodium meclofenamate (5 mg/kg), abolished the inhibitory effect of bradykinin on angiotensin II-induced renal vasoconstriction. In contrast, renal arterial infusion of either PGE2 or PGI2 was equally effective in reducing the renal vascular effect of angiotensin II in animals with and without meclofenamate pretreatment. These results suggest that bradykinin reduces the reactivity of the renal vasculature to angiotensin II by a mechanism dependent upon PG synthesis.
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PMID:Inhibition by bradykinin of the vascular action of angiotensin II in the dog kidney. 616 19

The effect of prostaglandin E2 (PGE2) and prostacyclin (PGI2) on the renal venous output of the adrenergic transmitter and on the renal vasoconstriction produced by sympathetic nerve stimulation and by norepinephrine was studied in pentobarbital-anesthetized dog. Renal arterial infusion of either PGE2 or PGI2 (4 ng kg-1 min-1) increased blood flow to the kidney and inhibited the vasoconstrictor response elicited by renal nerve stimulation (1-8 Hz) and by renal arterial injections of norepinephrine (0.006-0.5 microgram). However, during infusion of either PGE2 or PGI2, the renal venous output of norepinephrine caused by nerve stimulation was not altered. In contrast, substance P (2 ng kg-1 min-1), which also increased the blood flow to the kidney, did not affect the renal vasoconstrictor response elicited by either adrenergic stimulus. These results suggest that PGE2 and PGI2 reduce the vasoconstrictor effect of sympathetic nerve stimulation in the canine kidney by acting on the vascular smooth muscle.
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PMID:Prostacyclin and prostaglandin E2 effects on adrenergic transmission in the kidney of anesthetized dog. 616 10

1. The present study was undertaken to determine the mechanism of action of endothelin-1 (ET-1)-induced contraction of the guinea-pig isolated trachea. 2. ET-1 (1 nM-0.3 microM) produces a concentration-dependent contraction of guinea-pig trachea with an EC50 of approximately 25 nM. The combination of the peptidoleukotriene receptor antagonist, SK&F 104353 (10 microM) and the H1-histamine receptor antagonist, mepyramine (10 microM), which abolishes antigen-induced contraction in guinea-pig trachea, was without effect on ET-1 concentration-response curves. Furthermore, the platelet-activating factor (PAF) receptor antagonist, WEB 2086, (1 or 10 microM) did not inhibit ET-induced contraction. 3. ET-1 (0.3 microM) did not stimulate histamine or immunoreactive peptidoleukotriene release from guinea-pig isolated trachea. 4. The release of various prostanoids from guinea-pig trachea was increased significantly by ET-1 (0.3 microM); the profile of release was prostaglandin D2 (PGD2) = PGE2 = 6-keto PGF1 alpha (PGI2 metabolite) > thromboxane B2 = PGF2 alpha >> 9 alpha, 11 beta PGF2 (PGD2 metabolite). ET-1-induced release of prostaglandins, which was about 30% of that elicited by antigen in sensitized tissues, was not affected by epithelium removal and was observed in tissues from which the smooth muscle had been removed. Previous studies in our laboratory indicated that indomethacin potentiated contraction produced by high concentrations of ET-1, whereas a thromboxane receptor antagonist was without appreciable effect on ET-1 concentration-response curves. 5. Pretreatment of tissues for 1 h with capsaicin (10 microM), which depletes different sensory neurones, produced a small, but significant, inhibitory effect on ET-1 concentration-response curves in the presence but not the absence of the epithelium. The combination of the NK1 tachykinin receptor antagonist,CP-96,345 (0.1 microM), and the NK2 tachykinin receptor antagonist, SR 48968 (0.1 microM), was without effect on ET-l concentration-response curves but substantially antagonized capsaicin-induced contraction.6. The present data suggest that in guinea-pig isolated trachea, ET- 1 produces contraction predominantly via a direct mechanism: there is no significant contribution of the release of histamine,leukotrienes, PAF, or tachykinins (acting on NK1 or NK2 receptors). Although ET-1 evokes the release of an array of prostanoids from the trachea they do not appear to have a major influence on the contractile response.
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PMID:Relative contributions of direct and indirect mechanisms mediating endothelin-induced contraction of guinea-pig trachea. 750 80

1. In helical strips of dog superficial temporal arteries with intact endothelium, substance P elicited a concentration-related relaxation with an EC50 of 2.8 (2.4-3.2) x 10(-10) M. 2. The relaxant response to the peptide in low concentrations (1-4 x 10(-10) M) sufficient to produce approximately half maximal relaxation was not inhibited by indomethacin, but was markedly suppressed by NG-nitro-L-arginine (L-NOARG), a nitric oxide (NO) synthase inhibitor, and by endothelium denudation. 3. High concentration (10(-7) M) of substance P produced marked relaxations in endothelium-intact strips. Removal of the endothelium attenuated the relaxation, and indomethacin or tranylcypromine suppressed the endothelium-independent relaxation. In indomethacin-treated strips with intact endothelium, L-NOARG attenuated but did not abolish the relaxation. The residual, L-NOARG-resistant relaxation was not significantly inhibited by ouabain, glibenclamide or tetraethylammonium. 4. Substance P (10(-7) M) increased the levels of cyclic GMP and cyclic AMP. The increase in cyclic GMP was abolished by endothelium denudation and treatment with L-NOARG, whereas the cyclic AMP increment was abolished by indomethacin. 5. Three different mechanisms may be involved in the substance P-induced relaxation: (1) an endothelium-dependent relaxation mediated by the release of NO from the endothelium, resulting in an increase of cyclic GMP (low and high concentrations of the peptide); (2) an endothelium-independent relaxation in association with cyclic AMP increment caused by prostaglandin I2 released from subendothelial tissues (high concentration), and (3) another endothelium-dependent relaxation possibly mediated by unidentified mediator(s) released from the endothelium (high concentration).
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PMID:Mechanism underlying substance P-induced relaxation in dog isolated superficial temporal arteries. 751 4

Prostacyclin (PGI2) is a potent prostanoid producing various symptoms of inflammation, including an increased sensitivity to noxious stimulation. One component of these PGI2-mediated actions may involve activation or sensitization of sensory neurons to enhance release of neuroactive peptides. We, therefore, examined whether PGI2 and carba prostacyclin (CPGI2), a stable analog of PGI2, could alter the resting and evoked release of the neuropeptides, substance P (SP) and calcitonin gene-related peptide (CGRP) from embryonic rat sensory neurons grown in culture. Treating isolated sensory neurons with CPGI2 (10-1000 nM) for 30 min caused a 3-fold increase in the resting release of both peptides. One nM CPGI2, a concentration that did not alter the resting release, significantly enhanced neuropeptide release evoked by capsaicin, 100 nM bradykinin, or 40 mM KCl. Similarly, 10 nM PGI2 did not alter resting release, but augmented capsaicin-stimulated release of SP and CGRP 2-3 fold. In contrast, prostaglandin F2 alpha was ineffective in altering either resting or capsaicin-evoked peptide release. Our results demonstrate that low concentrations of PGI2 sensitize sensory neurons to other stimuli, whereas higher concentrations evoke release directly. This PGI2-induced augmentation of neuropeptide release may be one mechanism contributing to neurogenic inflammation.
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PMID:Prostacyclin enhances the evoked-release of substance P and calcitonin gene-related peptide from rat sensory neurons. 752 26

To investigate the effects of subarachnoid hemorrhage (SAH) on the responsiveness of human cerebral arteries to vasoactive substances, the authors measured the isometric tension generated in helical strips of basilar and middle cerebral arteries isolated from human cadavers. Contractions caused by KCl, prostaglandin F2 alpha, noradrenaline, and serotonin were reduced in arteries obtained from cadavers with aneurysmal SAH damage and compared to those obtained from cadavers with no indication of intracranial diseases. Endothelium-dependent relaxation elicited by substance P and bradykinin, and endothelium-independent relaxation induced by prostaglandin I2 and nitroglycerin were also markedly decreased in arteries affected by SAH. However, the reduction in relaxation response to prostaglandin I2 was significantly less than that to the other vasodilator agents. These results indicate that human cerebral artery functions are severely impaired after SAH and that poor responses to vasoactive agents may result primarily from dysfunction of smooth-muscle cells.
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PMID:Altered reactivity of human cerebral arteries after subarachnoid hemorrhage. 754 26

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