Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.15.1 (ACE)
18,300 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bradykinin is a potent vasodilator peptide; however, its half-life in vivo is very short because of various plasma and tissue peptidases that hydrolyze bradykinin to inactive fragments. We studied the role of kininase II (angiotensin converting enzyme) and neutral endopeptidase 24.11 (enkephalinase) in the catabolism of bradykinin in vascular tissue by determining the effect of inhibitors of kininase II (captopril) and of endopeptidase 24.11 (phosphoramidon) on the action of bradykinin on rat isolated mesenteric arteries. Because bradykinin may induce prostaglandin formation and release, we also studied the effect of a cyclooxygenase inhibitor, indomethacin, on the action of bradykinin. The mesenteric bed was isolated from rats (250-300 g) with rats under either anesthesia and was perfused with Krebs' solution (4 ml/min) containing phenylephrine (0.5-1.0 microgram/ml) to produce a mean perfusion pressure of 120-130 mm Hg. Bradykinin (2.5-40.0 ng), injected as a bolus, produced a dose-dependent decrease in perfusion pressure. In the presence of indomethacin (1.0 microgram/ml), the amplitude of the vasodilator responses to bradykinin was not significantly affected, although the duration of the responses was increased approximately two to four times. In the presence of captopril (1.0 microgram/ml), bradykinin elicited either a vasodilator or a biphasic effect. The vasodilator effect was greatly potentiated by captopril, whereas the duration of the response was unchanged when compared with control experiments. When present, the pressor responses were also dose related. In the presence of indomethacin plus captopril, bradykinin produced only a fall in perfusion pressure that lasted five to six times longer than without any treatment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of bradykinin on isolated mesenteric arteries of the rat. 173 87

The extravasation of plasma proteins and formation of interendothelial gaps in submucosal microvessels by mucosally-applied bradykinin (BK), were studied in the rat trachea. The effects of topical and systemic (s.c.) glucocorticoid budesonide (BUD) were investigated in the presence or absence of inhibitors of BK-degradtive enzymes (captopril and thiorphan 10 microM to inhibit angiotensin converting enzyme (ACE) and neutral endopeptidase (NEP), respectively). Inhibition of these enzymes markedly increased the inflammatory responses to BK. Topical BUD (3 microM, 10 min contact, 90 min before BK) significantly decreased the volume of plasma in the tracheal lumen, both in the absence and presence of the enzyme inhibitors. Thus, the main anti-transudation mechanism of topical BUD is not related to modulation of BK-breakdown. However, this may be the mechanism for systemic BUD. Neither topical nor systemic BUD prevented interendothelial gap formation.
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PMID:Attenuation of bradykinin-induced mucosal inflammation by topical budesonide in rat trachea. 179 30

We have previously shown that KPP, a kinin potentiating peptide generated by tryptic digestion of human plasma proteins potentiated kinin effects on isolated smooth muscle preparations like guinea-pig ileum with high potency and specificity. We also obtained evidence suggesting that, unlike other potentiating peptides, KPP exerts its effect by a mechanism different from the inhibition of kinin metabolism by angiotensin converting enzyme, neutral endopeptidase and kininase I. Here we show the potentiating effect of KPP and of BPP9a, a potentiator derived from snake venom, towards the rat paw edema induced by bradykinin (BK). Our results show that: a) KPP is 25-fold more active than BPP9a in potentiating rat paw edema elicited by BK: b) like BPP9a, KPP is specific in potentiating kinin-induced edema, being ineffective in potentiating edema induced by histamine or serotonin; and c) DesArg9-BK (DABK) elicits a small edematogenic response which can be potentiated by both KPP and BPP9a.
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PMID:Comparative effects of two potentiating peptides (KPP and BPP9a) on kinin-induced rat paw edema. 186 41

We investigated the effect of inhibition of carboxypeptidase, neutral endopeptidase, or angiotensin converting enzyme on airway reactivity to intravenous bradykinin in guinea pigs. Bradykinin reactivity in intact, unanesthetized, spontaneously breathing animals was determined by measuring specific airway resistance in response to increasing doses of intravenous bradykinin or acetylcholine. We found that phosphoramidon and/or captopril (specific antagonists of neutral endopeptidase and angiotensin converting enzyme, respectively) increased airway reactivity to bradykinin, but the combination had no effect on muscarinic reactivity. Although 2-mercaptomethyl-3-guanidinoethylthiopropanoic acid (MGTA, a carboxypeptidase inhibitor) alone did not alter bradykinin reactivity, MGTA in the presence of both phosphoramidon and captopril significantly potentiated bradykinin-induced airway reactivity. In comparison, this did not affect reactivity to acetylcholine. Having found that carboxypeptidase inhibition could augment kinin-induced airway reactivity, we subsequently assayed for and identified carboxypeptidase M activity in guinea pig lung. We found considerable carboxypeptidase M activity in guinea pig lung subcellular fractions, the 100,000 x g membrane pellet having the highest specific activity. Our data indicate that airway reactivity to intravenous bradykinin is modulated by the activity of endogenous neutral endopeptidase, angiotensin converting enzyme, and carboxypeptidase, all of which are present in lung cell membranes. This study also suggests that the influence of carboxypeptidase per se may be substantially enhanced if endogenous pulmonary neutral endopeptidase and angiotensin converting enzyme activities are reduced.
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PMID:Lung peptidases, including carboxypeptidase, modulate airway reactivity to intravenous bradykinin. 192 64

Opioid peptides are present in human cerebrospinal fluid (CSF), and their levels are reported to change in some pathologic conditions. However, less is known about their degradation in CSF. In the present study, human CSF was found to contain aminopeptidase activity which hydrolyzed alanyl-, leucyl- and arginyl-naphthylamides in a ratio of 100:28:27. Twelve CSF samples hydrolyzed alanyl-2-naphthylamide and degraded Met5-enkephalin (N-terminal hydrolysis) at rates of 188 +/- 38 and 420 +/- 79 pmol/min/mL respectively. Further, the distribution of alanyl-naphthylamidase activity in individual samples (39-437 pmol/min/mL) was closely correlated with that of Met5-enkephalin degradation (37-833 pmol/min/mL). Both alanyl-naphthylamidase and enkephalin degradation were optimal at pH 7.0 to 7.5 and were inhibited by aminopeptidase inhibitors amastatin (IC50 = 20 nM), bestatin (4-7 microM) and puromycin (30-35 microM). Conversely, degradation was unaffected by inhibitors of neutral endopeptidase (phosphoramidon), carboxypeptidase N (MERGETPA) or angiotensin converting enzyme (captopril). The Km of Met5-enkephalin for the CSF aminopeptidase activity was 201 +/- 19 microM (N = 4). Rates of hydrolysis of the Tyr1-Gly2 bond of larger opioid peptides decreased with increasing peptide length. Pooled, concentrated CSF hydrolyzed Leu5-enkephalin, dynorphin A fragments [1-7], [1-10] and [1-13] and dynorphin A at rates of 2.05 +/- 0.27, 1.27 +/- 0.18, 0.94 +/- 0.06, 0.55 +/- 0.14 and 0.16 +/- 0.03 nmol/min/mL respectively. When analyzed by rocket-immunoelectrophoresis against antisera to aminopeptidase M (EC 3.4.11.2), the concentrated CSF formed an immunoprecipitate which could be stained histochemically for alanyl-naphthylamidase activity. These data are consistent with a significant role for aminopeptidase M activity in the degradation of low molecular weight opioid peptides in human CSF.
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PMID:N-terminal degradation of low molecular weight opioid peptides in human cerebrospinal fluid. 197 24

In recent years, studies of the regulation of the airways have focused to an increasing degree on the roles of neuropeptides. Several peptides have been shown to be present in airways and mediate such diverse responses as ion transport, mucus secretion, bronchospasm or relaxation, edema, cough, changes in vascular permeability, and neutrophil chemotaxis. More recently, studies have described the roles of peptidases, most notably neutral endopeptidase (NEP, also known as enkephalinase, or E.C. 3.4.24.11) and kininase II (also known as angiotensin-converting enzyme, or E.C. 3.4.15.1) in modulating peptide-induced responses. The enzymes cleave a wide variety of peptides, generating metabolites that are inactive in the systems studied to date. Thus inhibitors of NEP potentiate responses to peptides that are cleaved by it. Therefore, NEP plays roles in modulating peptide-induced effects analogous to the role of acetylcholinesterase in modulating cholinergic neurotransmission. In several experimental respiratory diseases, the activity of neutral endopeptidase is decreased, resulting in increased responses to peptides. The therapeutic application of recombinant NEP protects the airways from the adverse actions of stimuli that release inflammatory peptides, and induction of the NEP gene expression by glucocorticoids suggest a possible mechanism for the action of these steroids in treating airway diseases such as asthma, chronic bronchitis, or cystic fibrosis.
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PMID:Roles of neutral endopeptidase in airways. 201 45

The effect of peptidase inhibitors on neuropeptide release from peripheral endings of capsaicin-sensitive sensory neurons was studied in cerebral superior sagittal and transverse sinuses of guinea-pig. Capsaicin (1 microM)-evoked release of substance P-like immunoreactivity (SP-LI) was increased in a concentration-dependent manner by thiorphan (0.1-10 microM). Captopril (10 microM) or a mixture of bestatin (10 microM), leupeptin (10 microM) and bacitracin (10 microM) did not affect the capsaicin-evoked SP-LI release. Thiorphan (10 microM) increased also the capsaicin-evoked release of neurokinin A-like immunoreactivity (TK-LI) and calcitonin gene-related peptide-like immunoreactivity (CGRP-LI) by 228% and 172%, respectively, while captopril (10 microM) was without effect. Thiorphan (10 microM), but not captopril (10 microM), enhanced by 239% CGRP-LI release induced by bradykinin (10 microM). In the cerebral venous vessels neutral endopeptidase (EC 3.4.24.11, NEP)-like activity was 58.8 +/- 6.1 pmol/mg protein/min, while angiotensin converting enzyme-like activity was below the detection limit of the assay. A thiorphan-sensitive mechanism, putatively attributable to NEP, plays a major role in the inactivation of peptides released from or acting on capsaicin-sensitive sensory fibres of cerebral venous sinuses of guinea-pig.
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PMID:The effect of thiorphan on release of sensory neuropeptides from guinea-pig cerebral venous sinuses. 206 52

1. Bradykinin (BK) instilled directly into the airway lumen caused bronchoconstriction in anaesthetized, mechanically ventilated guinea-pigs in the presence of propranolol (1 mg kg-1 i.v.). The geometric mean dose of BK required to produce 100% increase in airway opening pressure (PD100) was 22.9 nmol (95% c.i. 11.7-44.6 nmol). 2. The dose-response curve for the effect of instilled BK was significantly shifted to the left by the angiotensin converting enzyme (ACE) inhibitor, captopril (5 and 50 nmol instillation, PD100 = 3.0, 95% c.i. 0.98-8.9, and 2.0 nmol, 95% c.i. 0.65-6.2 nmol, respectively). 3. The neutral endopeptidase (NEP) inhibitor, phosphoramidon (5 and 50 nmol instillation) also shifted the dose-response curve for the effect of instilled BK; the PD100 values = 2.2 (95% c.i. 0.40-11.7) and 1.8 nmol (95% c.i. 0.87-3.5 nmol), respectively. 4. After pretreatment with captopril (50 nmol) and phosphoramidon (50 nmol) in combination, the dose-response curve for the effect of instilled BK (PD100 = 1.1 nmol, 95% c.i. 0.37-3.2 nmol) was similar to that obtained in the presence of each inhibitor used alone. 5. The kinase I inhibitor, DL-2-mercaptomethyl-3-guanidinoethylthiopropionic acid (50 nmol instillation) failed to alter the dose-response curve to instilled BK (PD100 = 14.6 nmol, 95% c.i. 6.7-32.0 nmol). 6. These data suggest that both ACE and NEP degrade BK in the airway lumen, but that kininase I is not involved.
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PMID:The effect of peptidase inhibitors on bradykinin-induced bronchoconstriction in guinea-pigs in vivo. 228 70

We have investigated the effect of chronic administration of enalapril on the carboxypeptidases responsible for the formation of angiotensin II from angiotensin I and other peptidases known to recognize angiotensin I as a substrate in the rat. These studies have shown an increase in activity in rate of formation of des-Leu-angiotensin I in both kidney S2 and P2 centrifugal fractions as well as a decrease in the rate of degradation of angiotensin I substrate. Similar increases in the formation of A(1-8) have been observed in kidney using A(1-9) as substrate. These two enzyme activities have been named carboxypeptidase K1 and K2, respectively to reflect their presence in rat kidney. These changes were accompanied by significant decreases in the activity of an amastatin-sensitive aminopeptidase and endopeptidase 24.11 in the kidney P2 fraction. These data suggest that chronic treatment with ACE inhibitors may differentially affect the activity of other enzymes capable of degrading angiotensin causing a substantial re-direction of angiotensin metabolism.
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PMID:Effect of chronic enalapril treatment on enzymes responsible for the catabolism of angiotensin I and formation of angiotensin II. 240 44

The purpose of this investigation was to examine the pathway of substance P (SP) and neurotensin (NT) catabolism in the gastric wall of the rat and identify some of the enzymes involved. Under anaesthesia an infusion catheter and a bundle of dialysis fibres were implanted into the stomach wall of the rat. Experiments commenced on conscious rats 2 days after surgery. In control experiments [3H]-SP(Pro-2,4) or [3H]-NT(Tyr-3,11) were injected into gastric tissues through the catheter and catabolites were collected in the dialysis fibres and separated by high pressure liquid chromatography. In other studies captopril, MK422 (inhibitors of angiotensin converting enzyme) or phosphoramidon (an inhibitor of endopeptidase-24.11, 'enkephalinase') were injected into gastric tissues before the peptide label. SP1-11 was degraded to mainly SP1-2, SP3-4 with some SP1-6, SP1-7 and SP1-8. Catabolism was partially but significantly (5% level) inhibited by MK422 and captopril, but not by phosphoramidon. NT1-13 was degraded to NT1-8, NT9-13, NT1-11 and NT1-12. NT catabolism was partially but significantly (5% level) inhibited by MK422. It is concluded that an enzyme resembling angiotensin converting enzyme is involved in the initial stages of SP and NT catabolism in the rat stomach. The involvement of other peptidases cannot be excluded because inhibition of breakdown was not complete.
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PMID:Catabolism of substance P and neurotensin in the rat stomach wall is susceptible to inhibitors of angiotensin converting enzyme. 242 51


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