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. We have estimated potencies of tachykinin receptor agonist and antagonist analogues in order to determine the recognition characteristics of tachykinin receptors mediating phasic contractile responses of the rat isolated urinary bladder in vitro. 2. The NK1-selective synthetic agonists, substance P methyl ester and GR73632, the synthetic NK2-selective agonists [beta-Ala8]-NKA(4-10) and GR64349, and the mammalian tachykinins, neurokinin A and neurokinin B, were assayed relative to substance P and were found to be approximately equipotent. The NK3-selective agonist, senktide, was inactive (10 microM). 3. Potencies of all these agonists were not significantly different (P > 0.05) when experiments were carried out in the presence of the neutral endopeptidase inhibitor, phosphoramidon, and the kininase II inhibitor, enalaprilat (both 1 microM). 4. The NK1-selective antagonist, GR82334, inhibited responses to substance P methyl ester in a competitive manner in the rat urinary bladder and the rat ileum, and also in the guinea-pig ileum. Markedly different pKB estimates were obtained in the rat bladder (6.38) and rat ileum (6.56) compared to the guinea-pig ileum (7.42). GR82334 (3 microM) was inactive against responses of the rat bladder to [beta-Ala8]-NKA(4-10). 5. The NK1-selective antagonist (+/-)-CP-96,345 also inhibited responses of the rat bladder and guinea-pig ileum to substance P methyl ester; however, in the rat bladder at 1 microM, this antagonist reversibly inhibited responses both to the NK2-selective agonist [beta-Ala8]-NKA(4-10) and to the muscarinic agonist carbachol (P < or = 0.01), thus showing evidence of some non-selective depressant actions. 6. The NK2-selective antagonists, MEN10207 and L-659,874, competitively inhibited responses of the rat bladder to the NK2-selective agonist [P-Ala5]-NKA(4-10) giving pKB estimates of 5.75 and 6.68,respectively. Both antagonists (1O microM) were inactive against responses to the NKI-selective agonist substance P methyl ester.7. These results support the proposal of a mixed population of NKI and NK2 receptors mediating contraction of the rat isolated urinary bladder. The NK2 receptor is characterized by a relatively low affinity for the NK2-selective antagonist MEN10207 but a high affinity for L-659,874. The NKImediated responses are inhibited by (+/-)-CP-96,345: this compound however, has non-specific depressant effects in the rat bladder at high concentration (1 microM). In contrast, the NK,-receptor peptide antagonist GR82334, did not have non-specific depressant effects and competitively inhibited NK, responses in the rat bladder and rat ileum with an affinity significantly lower than at the NK,-receptors in the guinea-pigileum.
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PMID:A pharmacological study of NK1 and NK2 tachykinin receptor characteristics in the rat isolated urinary bladder. 128 72

The angiotensin I-converting enzyme (kininase II, ECA) is a membrane bound enzyme anchored to the cell membrane through a single transmembrane domain located near its carboxyterminal extremity. Secretion of ACE by the cell occurs most likely as a result of a posttranslational cleavage of the membrane anchor and intracellular region. The ACE molecule is organized into two large highly homologous domains, each bearing consensus sequences for zinc binding in metallopeptidases. Site directed mutagenesis allowed to establish that both domains bear in fact a functional active site, able to convert angiotensin I into angiotensin II and to hydrolyze bradykinin or substance P. The two active sites of ACE, however, do not display the same sensitivity to anion activation (the C terminal active site being more chloride activatable) and also differs in kinetic parameters for peptide hydrolysis. The C terminal active site can hydrolyze faster angiotensin I and substance P and the N terminal active site is able to perform a peculiar endoproteolytic cleavage of an in vitro substrate of ACE, the luteinizing hormone releasing hormone. Both active sites bind with a high affinity, competitive inhibitors but the Kd of the reaction can vary up to 10 between the two active sites. All together, these observations suggest that ACE contains two active sites, whose structure is not exactly identical. They may have a different substrate specificity, however this remains speculative at the present time. Concerning the regulation of ACE gene expression in man, population studies indicated that the large interindividual variability in plasma ACE levels is genetically determined. An insertion/deletion polymorphism located in an intron of ACE gene is associated with differences in the level of ACE in plasma and cells. The physiological and clinical implications of these observations is discussed.
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PMID:[Angiotensin converting enzyme (kininase II). Molecular and physiological aspects]. 133 89

Myotropic effects of various peptides were measured in three isolated vessels, the dog carotid artery, the rabbit pulmonary artery and the rat portal vein in the absence and in presence of several peptidase inhibitors, in order to evaluate the interference by metabolism with the peptides' biological activities. After adequate controls, captopril (4.6 x 10(-6) mol/l), thiorphan (1.0 x 10(-6) mol/l), phosphoramidon (4.6 x 10(-6) mol/l), chymostatin (1 mg/l), bestatin (8.1 x 10(-6) mol/l) or bacitracin (1.4 x 10(-5) mol/l) were left in contact with the tissues for 20-40 min to inhibit tissue peptidases before measuring again the biological effects of the various peptides. In some experiments, mergetpa (5.4 x 10(-6) mol/l) was used. All peptidase inhibitors were inactive on their own and only captopril potentiated the effects of substance P, neurokinins, bradykinin and inhibited angiotensin I in two preparations, the dog carotid artery, the rat portal vein, and, excluding bradykinin, also in the rabbit pulmonary artery. Captopril and thiorphan significantly potentiated the maximal response of the rat portal vein to substance P and mergetpa inhibited completely the effect of bradykinin on the rabbit pulmonary artery. The present findings suggest that the most active proteolytic enzyme interfering with the biological effects of vasoactive peptides on three isolated vessels is the angiotensin-converting enzyme (kininase II).
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PMID:Inhibitors of peptidases: how they influence the biological activities of substance P, neurokinins, kinins and angiotensins in isolated vessels. 169 74

The antihypertensive effect of inhibitors of the angiotensin I-converting enzyme (ACE = kininase II) results from their vasodilatory and natriuretic effects as well as their effect on baroreceptor function. In addition to the inhibition of systemic and local angiotensin II formation, other local hormonal systems may also be involved in this effect at multiple target sites. Thus, potentiation of the vasodilator and natriuretic kinin system following inhibition of kininase II is thought to contribute to the persistent hypotensive effect of ACE inhibitors despite normalization of circulating ACE activity. Although increased plasma bradykinin levels cannot be detected, we found that the enhanced kinin-dependent local vascular prostacyclin production can be blunted in vitro by aprotinin, a kallikrein inhibitor. ACE inhibition may affect the atrial natriuretic peptide (ANP) system as the renin-angiotensin system and ANP appear to play antagonistic roles at the peripheral and central nervous system levels. Inhibition of kallikrein or of kininase II were both shown to modulate the natriuretic and vasorelaxant effects of ANP. In hypertensive subjects, we found that ACE inhibition with blood pressure normalization reduces basal and stimulated plasma ANP and blunts the renal sodium excretion in response to saline loading. In contrast, we did not observe effects of acute ACE inhibition in healthy sodium-depleted volunteers on plasma vasopressin under basal conditions or in response to passive tilt. Finally, we investigated the interaction of ACE inhibition with substance P, a powerful endogenous diuretic and natriuretic peptide that may have a transmitter function in the baroreceptor reflex arch.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Kinin- and non-kinin-mediated interactions of converting enzyme inhibitors with vasoactive hormones. 169 69

Glucocorticoids inhibit plasma extravasation induced in the rat tracheal mucosa by substance P and other tachykinins released from sensory nerves. This study was performed to determine whether this antiinflammatory effect of glucocorticoids is mediated by the tachykinin-degrading enzymes neutral endopeptidase (NEP) and kininase II (angiotensin converting enzyme, ACE). In addition, we studied the effect of dexamethasone on a nonpeptide inflammatory mediator, platelet-activating factor (PAF), which is not degraded by NEP or ACE. Adult male pathogen-free F344 rats were treated for 2 d with dexamethasone (0.5 mg/kg per d i.p.), or with the vehicle used to dissolve the steroid. The magnitude of plasma extravasation produced by an intravenous injection of substance P (5 micrograms/kg) or PAF (10 micrograms/kg) was then assessed by using Monastral blue pigment as an intravascular tracer. The role of NEP and ACE activities in the changes produced by dexamethasone was investigated by examining the effect of the selective inhibitors of these enzymes, phosphoramidon and captopril. Dexamethasone reduced the substance P-induced extravasation by 57% but did not affect the PAF-induced extravasation. The suppressive effect of dexamethasone on substance P-induced extravasation was completely reversed by simultaneously inhibiting NEP and ACE activities, but the inhibition of these enzymes had no effect on PAF-induced extravasation, regardless of whether the rats were pretreated with dexamethasone or not. These results suggest that NEP and ACE mediate a selective inhibitory effect of glucocorticoids on neurogenic plasma extravasation.
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PMID:Neutral endopeptidase and kininase II mediate glucocorticoid inhibition of neurogenic inflammation in the rat trachea. 171 45

The role of the brain kallikrein-kinin system in the regulation of arterial blood pressure of normotensive and spontaneously hypertensive rats was evaluated. Intracerebroventricular administration of the kinin antagonist [DArg0]Hyp3-Thi5,8[DPhe7]bradykinin caused no change in mean blood pressure in Wistar-Kyoto, Sprague-Dawley, or spontaneously hypertensive rats. The antagonist proved to be very potent in blocking the pressor effect of intracerebroventricular bradykinin (32 +/- 3 vs. 3 +/- 1 mm Hg, p less than 0.01). It was specific, as the pressor effect induced by other unrelated peptides was similar during the infusion of either vehicle or kinin antagonist (angiotensin II, 25 +/- 4 vs. 26 +/- 2 mm Hg; prostaglandin E2, 48 +/- 3 vs. 47 +/- 8 mm Hg; norepinephrine, 17 +/- 2 vs. 18 +/- 2 mm Hg; leucine-enkephaline, 15 +/- 2 vs. 16 +/- 1 mm Hg; neurotensin, 18 +/- 2 vs. 19 +/- 1 mm Hg; substance P, 19 +/- 2 vs. 19 +/- 2 mm Hg). Intracerebroventricular administration of 1 mg captopril, an inhibitor of kininase II (one of the enzymes responsible for kinin degradation), caused no change in mean blood pressure in normotensive rats, whereas it increased mean blood pressure by 44 +/- 9 mm Hg (p less than 0.01) in spontaneously hypertensive rats. This increase in mean blood pressure was blocked and then reversed into a hypotensive effect (22 +/- 6 mm Hg, p less than 0.05) during the infusion of kinin antagonist. Our data suggest that the pressor effect induced by intracerebroventricular captopril is due to a transient elevation in endogenous brain kinin levels, supporting the hypothesis that the brain kallikrein-kinin system plays a role in the central regulation of blood pressure in spontaneously hypertensive rats.
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PMID:Brain kinins are responsible for the pressor effect of intracerebroventricular captopril in spontaneously hypertensive rats. 218 Aug 19

Peptidyl-dipeptidase A (angiotensin converting enzyme; ACE, EC 3.4.15.1), has been purified from pig kidney and striatum by affinity chromatography employing the selective inhibitor lisinopril as ligand. The inclusion of a 2.8 nm spacer arm improved the yield of the enzyme compared with the 1.4 nm spacer arm described in previous work. Two forms of striatal ACE (Mr 180,000 and 170,000), but only a single form of kidney ACE (Mr 180,000), were isolated by this procedure. Both forms of striatal ACE were recognized by a polyclonal antibody to kidney ACE. No significant differences in substrate specificity or inhibitor sensitivity between kidney and striatal ACE could be detected. In particular, the amidated neuropeptide, substance P, was hydrolysed identically by both preparations and no significant hydrolysis of the related tachykinin peptides neurokinin A and neurokinin B could be detected. After chemical or enzymic deglycosylation, kidney and both forms of striatal ACE migrated identically on sodium dodecyl sulphate/polyacrylamide-gel electrophoresis with an apparent Mr of 150,000. We suggest that the two detectable forms of ACE in pig brain are not isoenzymes but are the result of differential glycosylation in different cell types in the brain. It appears that ACE, unlike endopeptidase-24.11, does not have the general capacity to hydrolyse and inactivate the tachykinin peptides at a significant rate in brain.
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PMID:Isolation of two differentially glycosylated forms of peptidyl-dipeptidase A (angiotensin converting enzyme) from pig brain: a re-evaluation of their role in neuropeptide metabolism. 243 65

Angiotensin I converting enzyme (kininase II; ACE) has been described as a peptidyldipeptidase or dipeptidyl carboxypeptidase (EC 3.4.15.1) of the pulmonary endothelial cells, which liberates angiotensin II or inactivates kinins. However, ACE has a much wider distribution and substrate specifity; it is concentrated in human epithelial cells (e.g. brush border of the kidney, placenta, intestine and choroid plexus), neuroepithelial cells (subfornical organ, pallidonigral dendrites, median eminence) and male genital tract (testes, prostate, epididymides, seminal plasma). Its substrates include enkaphalins, the C-terminal extended proenkephalins and a protected chemotactic tripeptide. Recent, mostly in vitro studies with purified ACE, indicate that ACE also cleaves peptides by other than peptidyldipeptidase action. Homogeneous human ACE inactivated substance P in spite of its blocked C-terminus (Met11-NH2) primarily by releasing the C-terminal tripeptide. A blocked C-terminal tripeptide, Arg-Pro-Gly-NH2 was also released from the luteinizing hormone releasing hormone (LHRH). Although ACE shares many properties with carboxypeptidases, it surprisingly cleaves the N-terminal tripeptide greater than Glu1-His2-Trp3 from LHRH. Because human ACE hydrolyzes a variety of peptide hormones, actions of its inhibitors may go well beyond blocking the conversion of angiotensin I.
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PMID:The broad substrate specificity of human angiotensin I converting enzyme. 244 Jun 24

To determine whether neutral endopeptidase regulates the binding of substance P to the receptors, and if so, what the mechanism is, we determined the effect of neutral endopeptidase inhibitors, thiorphan and phosphoramidon, on specific binding of 3H-substance P to homogenates of rat ileum. Specific binding was of high affinity and was saturable (dissociation constant, KD = 2.4 +/- 0.17 nM and number of maximal binding sites, Bmax = 101.1 +/- 5.5 fmol/mg protein), and the receptor subtype was substance P-P type. Neutral endopeptidase inhibitors increased the specific binding to up to 160% of control (P less than 0.005). Neutral endopeptidase inhibitors prevented the degradation of 3H-substance P during the binding assay and increased the amount of 3H-substance P remaining in the assay system to up to 4.5-fold of control (P less than 0.005), but did not significantly change the KD or Bmax values of specific binding. Protease inhibitors of kininase II, serine proteinases, or thiol proteinases did not significantly change either specific binding or the amount of 3H-substance P remaining in the assay system. We conclude that neutral endopeptidase regulates the binding of substance P to the receptors and that it does so by decreasing the amount of substance P available to the receptors, without significantly changing the affinity or the number of receptors.
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PMID:Effect of neutral endopeptidase inhibitors on 3H-substance P binding in rat ileum. 245 38

To determine the role of endogenous neutral endopeptidase (NEP), also called enkephalinase (EC 3.4.24.11), in regulating tachykinin-induced contraction of gut smooth muscle, we studied the effects of NEP inhibitors on the contractile responses to substance P (SP) in isolated longitudinal strips of ileum or duodenum in rats and ferrets. Leucine-thiorphan and phosphoramidon shifted the concentration-response curves of SP to lower concentrations in all tissues studied, but the sensitivity to SP was greater and the effect of leucine-thiorphan was less in the ferret, a finding that correlated with the observation that the ferret ileum contained substantially less NEP activity than rat ileum. Captopril, bestatin, MGTA, leupeptin, and physostigmine did not alter contractile responses to SP, suggesting that kininase II, aminopeptidases, carboxypeptidase N, serine proteinases, and acetylcholinesterase do not modulate the SP-induced effects. These studies suggest that, in the ileum and duodenum, NEP modulates the actions of SP and, furthermore, that the sensitivity of tissues may be determined, at least in part, by the amount of enzymatically active NEP present.
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PMID:Neutral endopeptidase inhibitors potentiate substance P-induced contraction in gut smooth muscle. 246 69

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