EC:3.4.24.11 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.11 (CD10)
9,792 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

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

The relative contribution of plasma carboxypeptidase N (kininase I), angiotensin-converting enzyme (ACE) (kininase II), neutral endopeptidase 24.11 (enkephalinase A) and postproline cleaving enzyme to total kininase activity in rat plasma was determined by measuring bradykinin hydrolysis with and without various concentrations of inhibitors of these enzymes. We used DL-2-mercaptomethyl-3-guanidinoethyl-thiopropanoic acid to inhibit kininase I, enalaprilat for ACE, phosphoramidon for neutral endopeptidase 24.11 and N-benzyloxycarbonyl-Pro-prolinal for postproline cleaving enzyme. Bradykinin was added to rat plasma and incubated at 37 degrees C. Kininase activity was evaluated based on the decrease in bradykinin during incubation. Bradykinin was measured by radioimmunoassay, using an antibody that recognizes its carboxyl group. Of the total plasma kininase activity, carboxypeptidase N was responsible for 11.0 +/- 2.5% (N = 5; P less than .05) and ACE for 46.8 +/- 1.5% (N = 5; P less than .001), whereas the contribution of neutral endopeptidase 24.11 and postproline cleaving enzyme turned out to be negligible. Of the kininase activity in rat plasma, 42% could not be explained by any of these four enzymes. We concluded that ACE is responsible for most of the kininase activity in rat plasma; carboxypeptidase N contributes to a slight degree. The fact that 42% of total plasma kininase activity could not be explained by any of the enzymes tested suggests that there are still other kininases in rat plasma which remain to be discovered.
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PMID:Contributions of various rat plasma peptidases to kinin hydrolysis. 255 17

1. Bradykinin (Bk; Arg1-Pro2-Pro3-Gly4-Phe5-Ser6-Pro7-Phe8-Arg8) inactivation by bulk isolated neurons from rat brain is described. 2. Bk is rapidly inactivated by neuronal perikarya (4.2 +/- 0.6 fmol/min/cell body). 3. Sites of inactivating cleavages, determined by a kininase bioassay combined with a time-course Bk-product analysis, were the Phe5-Ser6, Pro7-Phe8, Gly4-Phe5, and Pro3-Gly4 peptide bonds. The cleavage of the Phe5-Ser6 bond inactivated Bk at least five fold faster than the other observed cleavages. 4. Inactivating peptidases were identified by the effect of inhibitors on Bk-product formation. The Phe5-Ser6 bond cleavage is attributed mainly to a calcium-activated thiol-endopeptidase, a predominantly soluble enzyme which did not behave as a metalloenzyme upon dialysis and was strongly inhibited by N-[1(R,S)-carboxy-2-phenylethyl]-Ala-Ala-Phe-p-aminobenzoate and endo-oligopeptidase A antiserum. Thus, neuronal perikarya thiol-endopeptidase seems to differ from endo-oligopeptidase A and endopeptidase 24.15. 5. Endopeptidase 24.11 cleaves Bk at the Gly4-Phe5 and, to a larger extent, at the Pro7-Phe8 bond. The latter bond is also cleaved by angiotensin-converting enzyme (ACE) and prolyl endopeptidase (PE). PE also hydrolyzes Bk at the Pro3-Gly4 bond. 6. Secondary processing of Bk inactivation products occurs by (1) a rapid cleavage of Ser6-Pro7-Phe8-Arg8 at the Pro7-Phe8 bond by endopeptidase 24.11, 3820ACE, and PE; (2) a bestatin-sensitive breakdown of Phe8-Arg9; and (3) conversion of Arg1-Pro7 to Arg1-Phe5, of Gly4-Arg9 to both Gly4-Pro7 and Ser6-Arg9, and of Phe5-Arg9 to Ser6-Arg9, Phe8-Arg9, and Ser6-Pro7, by unidentified peptidases. 7. A model for the enzymatic inactivation of bradykinin by rat brain neuronal perikarya is proposed.
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PMID:Enzymatic inactivation of bradykinin by rat brain neuronal perikarya. 255 4

We studied the effect of bradykinin on ciliary activity and its modulation by peptidases in cultured rabbit tracheal epithelium in vitro. Bradykinin (10(-7) M) elicited a rapid, transient increase in ciliary beat frequency (CBF) from the baseline values of 1,031 +/- 25 to 1,388 +/- 38 beats/min (mean +/- SE, p less than 0.001), followed by a decline to a steady-state value of 1,180 +/- 30 beats/min, which was still greater than the baseline CBF. This ciliostimulation was dose-dependently inhibited by the B2-receptor antagonist (D-Arg,Hyp3,Thi5.8,D-Phe7)-bradykinin but not by the B1-receptor antagonist (Des-Arg9,Leu8)-bradykinin. Nifedipine, Ca2+-free medium, indomethacin, the phospholipase A2 inhibitor mepacrine, and the methyltransferase inhibitor 3-deazaadenosine reduced the change in CBF. Involvement of tachykinins, leukotrienes, prostaglandin D2, or thromboxane A2 was ruled out because bradykinin's action was not affected by (D-Pro2,D-Trp7.9)-substance P, nordihydroguaiaretic acid, or SQ29548, an antagonist for prostaglandin D2 and thromboxane A2. Bradykinin also increased prostaglandin E2 release (p less than 0.01), an effect that was abolished by indomethacin and Ca2+ deficiency. The CBF dose-response curve for bradykinin was shifted to lower concentrations by 1 log U by the neutral endopeptidase inhibitor phosphoramidon (p less than 0.01), whereas the angiotensin-converting enzyme inhibitor captopril was without effect. These results suggest that bradykinin interacts with B2-type receptors and stimulates ciliary activity through Ca2+-dependent prostaglandin E2 release, and that neutral endopeptidase may play a role in modulating the effect of bradykinin on airway mucociliary transport.
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PMID:Effect of bradykinin on airway ciliary motility and its modulation by neutral endopeptidase. 276 79

Chick retina was screened for neuropeptide-metabolizing peptidase activity during development using a kininase bioassay in which hydrolysis of any peptide bond of bradykinin (Arg1-Pro2-Pro3-Gly4-Phe5-Ser6-Pro7-Phe8-Arg9) leads to inactivation, combined with chromatographic bradykinin-product analysis. Bradykinin was degraded at a high rate, 6.1-26.6 mU/mg protein, by retina homogenates of all developmental stages. Kininase activity increased 2.3-fold from the 8th to the 18th embryonic day and 2-fold in the immediate posthatching period relative to the activity level at hatching. Bradykinin-product analysis, 57-113% recovery of the peptide fragments, indicated that kininase activity corresponded mostly to endopeptidase A- and to endopeptidase B-like activities (hydrolysis of Phe5-Ser6 and Pro7-Phe8 peptide bonds, respectively) and to angiotensin I-converting enzyme activity at all developmental stages. The data indicated that the relative amounts of these activities vary during retina differentiation.
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PMID:Screening for neuropeptide-metabolizing peptidases during the differentiation of chick embryo retina. 299 15

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

Bradykinin-hydrolyzing enzyme was purified 200-fold from a soluble fraction of cornified cells from 2-day-old rat epidermis. The enzyme has an Mr of 80,000 as identified by SDS polyacrylamide gel electrophoresis and HPLC gel filtration. The isoelectric point of the enzyme is 5.05. The enzyme hydrolyzed Phe5-Ser6 of bradykinin and seven bradykinin-related peptides, and Tyr5-Ser6 of Tyr5-bradykinin. Production of bradykinin fragments, Arg-Pro-Pro-Gly-Phe and Ser-Pro-Phe-Arg, proceeded in a stoichiometric fashion. Km and Vmax values for bradykinin were 33 microM and 22.2 mumol/min per mg, respectively. The enzyme did not hydrolyze azocasein, denatured hemoglobin or synthetic substrates for other epidermal proteinases. The enzyme activity was enhanced by reducing agents and inhibited by sulfhydryl-blocking agents and divalent cations. Diisopropyl fluorophosphate and phenylmethylsulfonyl fluoride had no effects. The enzyme has a pH optimum of 7.0-7.5 and is stable at 4 degrees C for 1 month, but loses activity completely at 60 degrees C for 10 min. The epidermal endopeptidase differs in several properties from endooligopeptidase A purified from brain which hydrolyzes Phe5-Ser6 of bradykinin.
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PMID:Purification and characterization of bradykinin-hydrolyzing enzyme from 2-day-old rat epidermis. 336 52

Neutral thiol-activated peptidases present in the pH 5-soluble fraction of rabbit brain (separated by step-elution chromatography on diethylaminoethyl cellulose) were screened for the hydrolysis of bradykinin. Lys-bradykinin, Met-Lys-bradykinin, angiotensin I, angiotensin II, substance P, luteinizing hormone-releasing hormone (LH-RH), and neurotensin by bioassay. The column effluent was monitored for bradykinin inactivation and arylamidase activity and combined in six pools on the basis of bradykinin inactivation. The pools were characterized by determining the peptide fragments and amino acids released from bradykinin with an amino acid analyzer. Pools 1 through 3 contained 80% of the kininase activity and essentially all of the endopeptidase A and B activity, whereas pools 4 through 6 accounted for 98% of the recovered arylamidase activity. Bradykinin, angiotensin I, angiotensin II, and substance P were inactivated by all the pools, whereas LH-RH and neurotensin were inactivated by pools 3 and 4, and pools 3, 4, and 5, respectively. These data show that rabbit brain contains peptidases having some selectivity for the inactivation of neuropeptides. Endopeptidase B purified from pool 3 is inhibited by bradykinin-potentiating peptide 9a (BPP9a, SQ 20881) (< Glu-Trp-Pro-Arg-Pro-Gln-Ile-Pro-Pro), a competitive inhibitor of the hydrolysis of bradykinin (Km = 3.5 X 10(-5) M, Ki = 3 X 10(-6) M) which also completely inhibits the inactivation of LH-RH.
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PMID:Screening for rabbit brain neuropeptide-metabolizing peptidases. Inhibition of endopeptidase B by bradykinin potentiating peptide 9a (SQ 20881). 616 Dec 9

The purpose of this study was to determine the effects of bradykinin (BK), substance P (SP) and histamine on plasma exudation in the skin of conscious dogs with and without pacing-induced heart failure. We also determined the role tissue angiotensin I-converting enzyme (ACE) and neutral endopeptidase (NEP) play in modulating these responses. We found that intradermal injection of BK, SP and histamine induced a significant, concentration-dependent Evans blue exudation in normal dogs (p < 0.05). Bradykinin-induced responses were significantly potentiated by captopril (p < 0.05). In contrast, phosphoramidon potentiated BK-induced responses only at low concentrations of BK. Both captopril and phosphoramidon had no significant effects on SP- and histamine-induced Evans blue exudation. BK- and SP-induced responses were significantly attenuated, whereas histamine-induced Evans blue exudation was significantly potentiated in dogs with heart failure. We conclude that heart failure is associated with attenuation of BK- and SP-, but not histamine-induced plasma exudation in the peripheral microcirculation and that these responses are not modulated by tissue ACE and NEP.
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PMID:Plasma exudation in conscious dogs with experimental heart failure. 753 20

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