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 effect of topical betamethasone upon skin blood flow was investigated in the rat. Two types of vasodilator stimuli were used; local heating to the surface of the skin and intradermal application of inflammatory agents. Blood flow was measured by laser doppler velocimetry. 2. Topical betamethasone-17-valerate (1 g with an 18 h pretreatment) significantly inhibited the heat-induced vasodilatation in the rat skin, as also did systemically administered betamethasone (1 mg kg-1, 3 h pretreatment). 3. Angiotensin converting enzyme (ACE) inhibitors (captopril, 5 mg kg-1 and enalapril, 1 mg kg-1, 30 min pretreatments) were the only drugs out of several different types of systemically administered inhibitors and antagonists that were tested which also inhibited the heat-induced vasodilatation. Aprotinin (100,000 KIU kg-1, 5 min pretreatment) a serine protease inhibitor, significantly potentiated the heat-induced response. 4. Bradykinin (50 nmol per site), des-Arg9-bradykinin (5 nmol per site), substance P (0.1 nmol per site) and capsaicin (1 mumol per site) induced an increase in skin blood flow. 5. Topical betamethasone treatment resulted in a significant inhibition of the vasodilator response to des-Arg9-bradykinin, whereas captopril treatment inhibited the responses to substance P, capsaicin, bradykinin and des-Arg9-bradykinin. 6. Intradermal application of captopril (10-100 micrograms) also caused a dose-dependent inhibition of the heat-induced vasodilatation. 7. These results suggest that topical betamethasone may be acting in a manner similar to that of the ACE inhibitors to produce an inhibition of the flow responses in the skin and that this effect may be brought about by interfering with the action of vasodilator peptide(s) or protein(s).
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PMID:Investigations into the mechanism of vasoconstrictor action of the topical steroid betamethasone-17-valerate in the rat. 844 1

Pig kidney aminopeptidase P (AP-P; EC 3.4.11.9) has been purified to homogeneity after its solubilisation from brush border membranes by phosphatidylinositol-specific phospholipase C. The effects of various activators and inhibitors of AP-P activity have been examined with a number of different substrates for the enzyme. The hydrolysis of bradykinin and ArgProPro is inhibited at Mn2+ concentrations above 10(-5) M, whereas the hydrolysis of other substrates (GlyProHyp, beta-casomorphin, substance P) is substantially activated, with 4-10 mM Mn2+ being optimal. The thiol reagent, p-chloromercuriphenylsulphonic acid, inhibits the hydrolysis of GlyProHyp but markedly activates the hydrolysis of bradykinin. A number of inhibitors of angiotensin converting enzyme (ACE; EC 3.4.15.1), previously reported to inhibit the hydrolysis of GlyProHyp, have no effect on the hydrolysis of bradykinin except in the presence of Mn2+. Differences were also observed in the degree of inhibition of GlyProHyp and bradykinin hydrolysis by EDTA and their reactivation by divalent cations. The hydrolysis of GlyProHyp follows Michaelis-Menten kinetics with a Km value of 2.7 mM. Bradykinin inhibits GlyProHyp hydrolysis with an I50 of 1.4 microM. The hydrolysis of bradykinin by AP-P reveals anomalous nonlinear kinetics indicative of negative cooperativity or the presence of more than one active site for this substrate. These results indicate that substrates for AP-P can be divided into 2 groups based on their responses to inhibitors and cation activators.
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PMID:Inhibition and metal ion activation of pig kidney aminopeptidase P. Dependence on nature of substrate. 869 47

To determine whether the sensitizing action of prostaglandins on sensory neurons are due to modulation of voltage-sensitive calcium channels (VSCC) we examined the effects of inhibiting these channels on PGE2-induced enhancement of evoked peptide release from isolated dorsal root ganglion neurons. The inhibitory effects of the VSCC blockers on stimulated release were dependent upon the type of chemical agent used to evoke the release. Bradykinin-stimulated release of immunoreactive substance P (iSP) and calcitonin gene-related peptide (iCGRP) was attenuated by the N-type VSCC blocker, omega-conotoxin GVIA (100 nM), but was unaffected by blockade of L-type (1 microM nifedipine) or P-type (200 nM omega-agatoxin IVA) VSCC. In contrast, potassium-stimulated release of peptides was inhibited by nifedipine, but not by omega-conotoxin GVIA or omega-agatoxin IVA. None of the VSCC blockers tested attenuated capsaicin-stimulated release of iSP and iCGRP. The combination of 1 microM nifedipine and 100 nM omega-conotoxin GVIA reduced the whole cell calcium current 89% +/- 1.7%. Administration of 100 nM PGE2 potentiated bradykinin- and capsaicin-evoked peptide release by 2-3-fold. Neither nifedipine nor omega-conotoxin GVIA attenuated the PGE2-mediated potentiation of bradykinin-evoked release, and neither omega-conotoxin GVIA nor omega-agatoxin IVA blocked the potentiation of capsaicin-evoked release induced by PGE2. These results indicate that the sensitizing actions of PGE2 as measured by enhanced peptide release, are not mediated by L-, N-, or P-type VSCC.
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PMID:Differential regulation of evoked peptide release by voltage-sensitive calcium channels in rat sensory neurons. 881 1

Injection of substance P (SP) in a rat hindpaw induced extravasation of 125I-labelled albumin in both hindpaws and salivation. Intravenous injection of SP dose-dependently increased vascular permeability. This latter effect was increased in rat paws by captopril, an inhibitor of angiotensin-converting enzyme (ACE), administered locally in combination with diprotin A, an inhibitor of an dipeptidyl(amino)peptidase IV (DAP IV) or phosphoramidon, an inhibitor of neutral endopeptidase (NEP). The increase in permeability induced by SP was inhibited by RP 67580, a NK-1-receptor antagonist. Intravenous injection of capsaicin induced labelled albumin extravasation in rat paws. This effect was increased by combination of captopril with diprotin A or phosphoramidon, but not by captopril associated with amastatin, an inhibitor of aminopeptidase M (AmM). It was suppressed by RP 67580. Injection of collagenase in rat paws triggered a swelling and a local plasma exudation. These responses were reduced by RP 67580 but not by RP 68651, its inactive enantiomer. They were increased by combination of captopril with diprotin A or phosphoramidon in normal rats. The potentiating effects of captopril and diprotin A were suppressed by RP 67580 in normal rats but did not develop in kininogen-deficient rats. The oedema induced by collagenase was also increased by lisinopril, another ACE inhibitor, administered locally in combination with apstatin, an inhibitor of aminopeptidase P (AmP). In rats pretreated by methysergide, collagenase-induced oedema was reduced and can be increased by captopril, by lisinopril, administered alone or by lisinopril associated with apstatin. It is concluded that SP is mainly inactivated in rat paws by ACE, DAP IV and NEP. In collagenase-induced oedema, a low amount of SP would be released from afferent nerve terminals by bradykinin formed in low amounts. Bradykinin is inactivated in rat paws by ACE and AmP. In collagenase-oedema, the pro-inflammatory effects of bradykinin are concealed by the effects of the other mediators.
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PMID:Influence of several peptidase inhibitors on the pro-inflammatory effects of substance P, capsaicin and collagenase. 893 67

Prolyl endopeptidase has been predominantly described as a cytosolic activity capable of cleaving a number of important neuropeptides (including TRH, LHRH, Bradykinin, Angiotensin, Substance P, Neurotensin, Oxytocin and Vasopressin) on the carboxy side of proline. In this paper, we report, for the first time, on the complete purification and characterization of a membrane-bound form of prolyl endopeptidase. This novel activity has been isolated from the synaptosomal (plasma membranes) membranes of bovine brain. Following gel filtration, hydroxylapatite and hydrophobic interaction chromatographies, the prolyl endopeptidase activity was purified 1400-fold with a 23% recovery of activity. The enzyme was shown to have a relative molecular mass of 87 kDa and a Km of 60 microM for its specific fluorimetric substrate, Z-GlyProMCA. The purified enzyme demonstrated a relatively broad substrate specificity and a relatively high affinity for proline-containing neuropeptides. It was shown to be inhibited by certain thiol-protease inhibitors and by the metal chelator, 1,10-phenanthroline, thus possibly classifying it as a 'thimet' activity. The purified particular form of proyl endopeptidase displayed a similar substrate specificity to the previously reported cytosolic forms of the enzyme. However, there were differences between the two forms in term of their sensitivity to inhibitors, their affinities for the peptide substrates and their relative molecular masses. The different subcellular location (i.e. the synaptosomal membrane) of the particulate prolyl endopeptidase is also of potential physiological significance given that here it is more likely to come in contact with the vesicle-bound neuropeptides than is its cytosolic counterpart.
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PMID:Purification and characterization of a novel membrane-bound form of prolyl endopeptidase from bovine brain. 902 55

1. The relaxant of vasodilator peptides were examined in ring preparations of basilar arteries from stroke-prone spontaneously hypertensive rats (SHRSP) and Wistar-Kyoto (WKY) rats. 2. Vasoactive intestinal peptide and peptide histidine isoleucine produced similar endothelium-independent relaxations in basilar arteries from WKY rats and SHRSP. Calcitonin gene-related peptide (CGRP) elicited endothelium-independent relaxations in both groups and the CGRP-induced relaxation was greater in SHRSP than in WKY rats. Substance P and neurokinin A did nor relax basilar arteries from either group. 3. Both WKY rat and SHRSP basilar arteries were relatively insensitive to atrial natriuretic peptide, brain natriuretic peptide and C-type natriuretic peptide. 4. Bradykinin (BK) potently relaxed basilar arteries with endothelium, but BK produced contractions in endothelium-rubbed arteries in both WKY rats and in SHRSP. There was no significant difference in the relaxant response to BK between WKY rat and SHRSP arteries. 5. Adrenomedullin (AM) produced endothelium-independent relaxations in both groups and the relaxant response to AM was significantly greater in SHRSP than in WKY rats. 6. Human CGRP(8-37;mumol/L), a CGRP receptor antagonist, significantly inhibited both relaxant responses induced by CGRP and AM in WKY rats and in SHRSP arteries. 7. Among various peptides tested, the responses to CGRP and AM were higher in basilar arteries from SHRSP than in those from WKY rats. The relaxation produced by AM may be via CGRP receptors in WKY rat and SHRSP basilar arteries.
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PMID:Relaxant effects of vasodilator peptides on isolated basilar arteries from stroke-prone spontaneously hypertensive rats. 907 89

In anesthetized rats, renal pelvic administration of bradykinin results in a prostaglandin (PG)-dependent increase in afferent renal nerve activity (ARNA). We now measured renal pelvic release of PGE and substance P during renal pelvic administration of bradykinin. Bradykinin increased ARNA and renal pelvic release of PGE by 497 +/- 252 pg/min and substance P. by 10.7 +/- 7.2 pg/min. Renal pelvic perfusion with indomethacin abolished the bradykinin-mediated increase in ARNA and reduced renal pelvic release of PGE and substance P by 76 +/- 11 and 72 +/- 8%, respectively. To examine whether the increased substance P release contributed to bradykinin-mediated activation of renal sensory receptors, renal pelvis was perfused with the substance P-receptor antagonists CP-96,345, CP-99,994, or RP-67580. The ARNA response to bradykinin was reduced 73 +/- 11, 55 +/- 12, and 64 +/- 10% by CP-96,345, CP-99,994, and RP-67580, respectively. The inactive enantiomers CP-96,344 and RP-68651 had no effect. These data suggest that bradykinin increases renal pelvic release of PGE, which facilitates the release of substance P, which in turn stimulates substance P receptors. Thus the ARNA response to bradykinin is largely mediated by activation of substance P receptors.
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PMID:Bradykinin-mediated activation of renal sensory neurons due to prostaglandin-dependent release of substance P. 922 22

Bradykinin has been implicated in nociception and inflammation. To examine the relative significance of B1 and B2 bradykinin receptor subtypes in sympathetic and sensory ganglia, the electrophysiological effects of bradykinin analogues and the expression of receptor subtype mRNA were examined in wild-type and "B2 knockout" mice from which the B2 receptor gene had been deleted. In wild-type mice the B2 receptor agonist bradykinin depolarized superior cervical ganglia (SCG) and activated inward currents in dorsal root ganglia (DRG) neurones. Responses to the B1 receptor agonist, [des-Arg10]-kallidin, were seen only in SCG that had been pre-treated with interleukins and the peptidase inhibitor captopril, but not in DRG neurones. The up-regulation of responses to [des-Arg10]-kallidin and substance P were blocked by indomethacin and, thus, were dependent upon cyclo-oxygenase activity. The effects of bradykinin were abolished in SCG and DRG's from B2 knockout mice and this was correlated with the absence of B2 receptor mRNA in ganglia from these animals. However, despite the presence of B1 receptor mRNA in interleukin treated SCG from B2 knockout mice, no depolarizing effects of the B1 receptor agonist [des-Arg10]-kallidin were observed. The successful elimination of bradykinin responses and B2 mRNA in sympathetic and sensory ganglia from B2 knockout mice, confirms that B2 receptors are the predominant functional bradykinin receptor subtype in these tissues and that B1 receptor mRNA is expressed in both sympathetic and sensory ganglia from these animals.
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PMID:Expression of B1 and B2 bradykinin receptor mRNA and their functional roles in sympathetic ganglia and sensory dorsal root ganglia neurones from wild-type and B2 receptor knockout mice. 925 45

We have tested the vasoactive effects of kinins in addition to various other endothelium-dependent or independent agonists in the arterial and venous perfused mesenteric circuits of the mouse. Bradykinin (0.1 pmol-100 nmol), but not des-Arg9-bradykinin (10 nmol) induced a dose-dependent vasodilation of the precontracted arterial and venous mesenteric vasculature of the mouse. Furthermore, acetylcholine (2.5 nmol) also induced a marked arterial vasodilation but was without effect on the venous side. Other endothelium-dependent vasodilators, such as platelet-activating factor (PAF) (1 nmol), tachykinin NK1 selective agonist ([Sar9,Met(O2)(l1) ]substance P) (0.5 nmol) and adenosine diphosphate (5 nmol), were without effect on either side of the mesenteric bed of the mouse. The bradykinin B2 receptor selective antagonist (HOE 140) abolished the arterial and venous vasodilation induced by bradykinin without affecting that of acetylcholine or sodium nitroprusside. In addition, the bradykinin B1 receptor antagonist des-Arg9-[Leu8]bradykinin was without effect on the responses induced by bradykinin. A nitric oxide synthase inhibitor N(omega)-nitro-L-arginine methyl ester (L-NAME) markedly reduced, whereas removal of the endothelium with 3-[3-cholamidopropyl)dimethylammonio]-1-propane sulfonate (CHAPS) abolished dilatation to bradykinin and acetylcholine (arterial side only) without affecting that induced by sodium nitroprusside in the mouse arterial and venous mesenteric circuits. In the same two circuits of transgenic B2 knockout mice, the vasodilatory responses to bradykinin were absent, whereas the arterial circuit still responded to acetylcholine by a L-NAME-sensitive vasodilation. Our results suggest the exclusive contribution of B2 receptors located on the endothelium in the vasodilatory effects of bradykinin in the arterial and venous mesenteric circuits of the mouse.
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PMID:Pharmacology of kinins in the arterial and venous mesenteric bed of normal and B2 knockout transgenic mice. 931 61

Histamine (60 microM) produced ATP release from segments of guinea-pig vas deferens which was blocked by pyrilamine and triprolidine, H1-blockers, but not by ranitidine, an H2-blocker. The evoked-release was inhibited by the mitochondrial inhibitors, carbonyl cyanide-m-chlorophenylhydrazone (CCCP) and oligomycin. Bradykinin (BK) and substance P (SP) also caused substantial and moderate release of ATP, respectively. The BK-evoked release of ATP was inhibited by HOE140, a B2-antagonist, but not by [Des-Arg10] HOE140, a B1-antagonist. On the other hand, VIP, angiotensin II (AII) and cholecystokinin-octapeptide (CCK-8) failed to elicit a measurable release of ATP. Histamine and BK also enhanced the release of ATP from superfused cultured smooth muscle cells. These results suggest that ATP may be released as an autacoid from the smooth muscles in the presence of these chemical mediators.
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PMID:ATP release caused by bradykinin, substance P and histamine from intact and cultured smooth muscles of guinea-pig vas deferens. 955 Feb 94

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