Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P20366 (substance P)
 21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neutral endopeptidase (NEP) (enkephalinase, EC 3.4.24.11) and angiotensin converting enzyme (ACE) are two peptidases that can cleave the C-terminal dipeptide bradykinin(8-9) from bradykinin. To determine whether these peptidases play roles in modulating kinin-induced contractions in the airways, we studied the effects of captopril, an ACE inhibitor, and of leucine-thiorphan and phosphoramidon, two NEP inhibitors, on the contractile responses to bradykinin and lysyl-bradykinin in isolated segments of ferret trachea. Bradykinin and lysyl-bradykinin-induced contractions in a concentration-dependent fashion (P less than .001), with a threshold of 10(-7) M and 5 x 10(-7) M, respectively. In contrast, the bradykinin(8-9) and the N-terminal heptapeptide bradykinin(1-7), the major fragments of hydrolysis of bradykinin by NEP and ACE, had a very weak or no effect on tracheal contraction in concentrations as great as 10(-5) M. Captopril, leucine-thiorphan and phosphoramidon (each inhibitor at 10(-5) M, 15 min) shifted the concentration-response curves to lower concentrations by approximately 1 to 1.5 log U (P less than .05). Both NEP inhibitors and the ACE inhibitor potentiated the response to bradykinin in a concentration-dependent fashion (P = .0001), and the combination of phosphoramidon and captopril resulted in an additive potentiation of bradykinin-induced contraction (P less than .02). [D-Pro2-D-Trp7,9]-substance P, a substance P antagonist, did not modify the potentiation of bradykinin-induced contraction by NEP inhibitors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Neutral endopeptidase and angiotensin converting enzyme inhibitors potentiate kinin-induced contraction of ferret trachea. 327 79

Endopeptidase-24.11 (EC 3.4.24.11), purified to homogeneity from pig kidney, was shown to hydrolyse a wide range of neuropeptides, including enkephalins, tachykinins, bradykinin, neurotensin, luliberin and cholecystokinin. The sites of hydrolysis of peptides were identified, indicating that the primary specificity is consistent with hydrolysis occurring at bonds involving the amino group of hydrophobic amino acid residues. Of the substrates tested, the amidated peptide substance P is hydrolysed the most efficiently (Km = 31.9 microM; kcat. = 5062 min-1). A free alpha-carboxy group at the C-terminus of a peptide substrate is therefore not essential for efficient hydrolysis by the endopeptidase. A large variation in kcat./Km values was observed among the peptide substrates studied, a finding that reflects a significant influence of amino acid residues, remote from the scissile bond, on the efficiency of hydrolysis. These subsite interactions between peptide substrate and enzyme thus confer some degree of functional specificity on the endopeptidase. The inhibition of endopeptidase-24.11 by several compounds was compared with that of pig kidney peptidyldipeptidase A (EC 3.4.15.1). Of the inhibitors examined, only N-[1(R,S)-carboxy-2-phenylethyl]-Phe-p-aminobenzoate inhibited endopeptidase-24.11 but not peptidyldipeptidase. Captopril (D-3-mercapto-2-methylpropanoyl-L-proline), Teprotide (pGlu-Trp-Pro-Arg-Pro-Gln-Ile-Pro-Pro) and MK422 [N-[(S)-1-carboxy-3-phenylpropyl]-L-Ala-L-Pro] were highly selective as inhibitors of peptidyldipeptidase. Although not wholly specific, phosphoramidon was a more potent inhibitor of endopeptidase-24.11 than were any of the synthetic compounds tested.
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PMID:The metabolism of neuropeptides. The hydrolysis of peptides, including enkephalins, tachykinins and their analogues, by endopeptidase-24.11. 614 47

The metabolic degradation of substance P(SP), some of its C-terminal fragments, and some analogues by rat plasma has been evaluated from the disappearance of the biological activities of these peptides on the guinea pig isolated ileum. The experiments were performed by dissolving each peptide in saline and by adding 20% (v/v) of rat plasma for incubation at 37 degrees C for various periods of time. It was found that SP and octapeptide 4-11 are inactivated quite rapidly and at approximately the same rate whereas SP-free acid, heptapeptide 5-11, hexapeptide 6-11, and [D-Trp8]-SP are inactivated more slowly. The replacement of Phe7 by D-Trp does not protect the undecapeptide SP from inactivation. The degradation of SP and of all the C-terminal fragments was completely blocked by Captopril at a concentration of 10 micrograms/mL of plasma. Under these conditions, Captopril also slightly reduced the rate of inactivation of bradykinin and of SP-free acid. These results were interpreted as indicative of the presence in rat plasma of an endopeptidase that hydrolyses a peptide bond in the C-terminal pentapeptide sequence of SP. This endopeptidase is completely inactivated by Captopril, which thus appears to be not as specific for the angiotensin-converting enzyme as it was thought to be.
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PMID:Inactivation of substance P and its C-terminal fragments in rat plasma and its inhibition by Captopril. 617 Apr 5

We studied the effect of neurogenic inflammation on airway blood flow in anesthetized F-344 rats. Three successive determinations of blood flow were made by injecting radionuclide-labeled microspheres suspended in 70% dextrose into the left ventricle. A selective agonist of the tachykinin receptor neurokinin 1 (NK1) increased airway blood flow, but NK2- and NK3-selective agonists were without effect. The natural agonist of NK1 receptors, substance P (1 micrograms/kg), increased airway blood flow, an effect that was abolished by the selective NK1 receptor antagonist CP-99,994 [(+)-(2S,3S)-3-(2-methoxybenzylamino)-2-phenylpiperidine] but not by the (2R,3R)-enantiomer CP-100,263. Capsaicin (25 micrograms/kg), a drug that releases tachykinins and calcitonin gene-related peptide from sensory nerves, increased airway blood flow, and again this effect was abolished by CP-99,994. We also studied the effect of a selective inhibitor (captopril, 2.5 mg/kg) of the tachykinin-degrading enzyme kininase II [or angiotensin-converting enzyme (ACE)] on substance P-induced airway vasodilation. Captopril potentiated and prolonged the vasodilator effect of substance P. We conclude that neurogenic vasodilation in rat airways is due to the release of substance P, acts via NK1 receptors, and may be modulated by ACE.
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PMID:NK1 receptors mediate neurogenic inflammatory increase in blood flow in rat airways. 768 98

The effects of inhibition of angiotensin converting enzyme (ACE) and glycopyrrolate on cough caused by inhaled capsaicin were investigated in a double-blind, randomised cross-over study in twelve normal volunteers. The capsaicin challenge was performed before and 2 h after dosing with 75 mg captopril or matched placebo given orally, and 20, 40 and 60 min after giving 1 mg glycopyrrolate i.v. to each subject. Captopril and placebo did not alter the cough response when compared to baseline. Glycopyrrolate, however, caused a significant increase in the threshold sensitivity (D2) from baseline, and a significant decrease in the total cough response at 40 and 60 min both after captopril and placebo. The D2-baseline and D2-40 min after glycopyrrolate (mean SD), respectively, were 3.2 (1.0); 17.9 (4.2) after placebo and 2.5 (8.5); 23.6 (6.9) after captopril. Elimination of vagal influences implies attenuation of the effects of tachykinins but not those prostaglandins. We postulate that tachykinins, such as substance P, play a more important role than prostaglandins in capsaicin-induced cough. We conclude that the vagus is important in the capsaicin-induced cough reflex, but, as suppression of this reflex by glycopyrrolate was delayed, the relevant receptors are either poorly accessible peripheral receptors or they are located in the central nervous system.
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PMID:Effects of glycopyrrolate on capsaicin-induced cough in normal volunteers treated with captopril. 795 39

The i.v. administration of substance P (SP, 0.25-16 micrograms/kg) or of the selective metabolic stable NK-1 agonist, [Glp6,Pro9]SP-(6-11) (septide, 0.03-0.25 microgram) to atropine-treated guinea pigs or to isolated perfused lungs triggered a dose-dependent bronchoconstriction, which was enhanced in animals actively sensitized to ovalbumin. In vivo, bronchial hyper-responsiveness was restricted to SP and to septide, inasmuch as neurokinin A (0.06-1 microgram/kg)- or capsaicin (0.5-32 micrograms/kg)-induced bronchoconstriction were not modified. In contrast, isolated lungs from sensitized guinea pigs exhibited an increased bronchoconstriction also in response to capsaicin (0.01-10 micrograms), which was inhibited by atropine in the medium. Pretreatment of actively sensitized guinea pigs either with indomethacin plus mepyramine, the lipoxygenase inhibitor BW A4C or with the platelet-activating factor antagonist SR 27417, did not modify bronchial hyper-reactivity to SP. Captopril (5 mg/kg i.v.), but not thiorphan (0.8 mg/kg i.v.), increased the SP-induced bronchoconstriction in actively sensitized animals, whereas both inhibitors were equally effective in nonsensitized guinea pigs. Thiorphan, however, did not modify the in vivo response to septide. Our results demonstrate that guinea pigs sensitized to ovalbumin exhibit bronchial hyperreactivity to SP, but not to neurokinin A, as compared to nonsensitized animals, suggesting a decrease in the neutral endopeptidase activity in the airways brought by the immunization. However, the results obtained by using septide indicate that other mechanisms may be involved in the bronchial hyper-reactivity to SP.
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PMID:Effect of active sensitization on the bronchopulmonary responses to tachykinins in the guinea pig. Modulation by peptidase inhibitors. 835 11

In anesthetized, mechanically ventilated guinea pigs, infusion of captopril (1 mg/kg/h), an angiotensin converting enzyme inhibitor, significantly enhanced bronchoconstriction induced by intravenous injection of bradykinin (BK; 0.1-30 nmol/kg). Pretreatment of guinea pigs with capsaicin (100 mu g/kg) slightly suppressed the bronchoconstriction by BK alone and almost all of the enhancement of BK-induced bronchoconstriction by captopril was suppressed. Intravenous injection of substance P (SP; 0.1-100 nmol/kg), neurokinin A (NKA; 0.1-30 nmol/kg) and neurokinin B (NKB; 0.1-30 nmol/kg) also induced dose-dependent bronchoconstriction but captopril treatment enhanced only the bronchoconstriction induced by SP. BK degradation in bronchoalveolar lavage fluid (BALF) in vitro was significantly suppressed by captopril (p < 0.05). Captopril infusion to guinea pigs significantly increased the levels of BK, SP, and NKA in BALF after BK injection (p < 0.05). FK224, an NK1 and NK2 receptor antagonist and SR 48968, an NK2 receptor antagonist, significantly suppressed the bronchoconstriction induced by BK alone (p < 0.01 and p < 0.05, respectively) as well as the enhancement by captopril (p < 0.01). It can be concluded that the enhancement of BK-induced bronchoconstriction by captopril was attributable to inhibition of the degradation of BK itself and thereby enhanced release of NKA and partly of SP from sensory nerves by BK.
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PMID:Role of tachykinins in enhancement of bradykinin-induced bronchoconstriction by captopril. 890 88

Angiotensin-converting enzyme (ACE) inhibitors are widely used as blood pressure medications in hypertensive individuals. However, ACE inhibitors also play an integral role in the breakdown of neuronal substance P, which has been recently implicated in the development of functional deficits following traumatic brain injury (TBI). The present study therefore examined the effects of ACE inhibitors on histological and motor outcome following TBI. Male Sprague-Dawley rats were treated with Captopril, Enalapril or equal volume saline for 7 days prior to the induction of diffuse TBI using the impact acceleration model. At 5h post-injury, animals administered Captopril demonstrated significantly increased substance P immunoreactivity compared to vehicle controls (p<0.01), and increased dark cell change that persisted to 7 days post-trauma. Captopril also resulted in exacerbated motor deficits compared to vehicle treated animals (p<0.05) as assessed by the rotarod test over a 7-day post-traumatic period. Administration of the alternative ACE inhibitor, Enalapril, likewise exacerbated motor deficits, confirming a class effect of ACE inhibitors rather than a compound effect specific to Captopril. We conclude that ACE inhibitors are deleterious to outcome following TBI, presumably by impairing the degradation of substance P and increasing substance P mediated neuronal injury.
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PMID:Angiotensin-converting enzyme (ACE) inhibitors exacerbate histological damage and motor deficits after experimental traumatic brain injury. 2060 Jun 11


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