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:3.4.24.11 (CD10)
9,792 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

With the aim of producing an analgesia physiologically induced by endogenous opioids, several series of inhibitors of the degradation enzymes of enkephalins have been synthetized by using as a model, at the atomic level, the active site of thermolysin, a bacterial endopeptidase similar to enkephalinase. Thiorphan and retro-thiorphan are very potent inhibitors of enkephalinase (KI = 2 nM), but the retro compound is more selective, as it is unable to recognise the angiotensin conversion enzyme. Recently, a series of inhibitors containing a bidentate group were found to be capable of inhibiting the three metallopeptidases which break down the enkephalins. One of these compounds, kelatorphan, totally protects, in vitro and in vivo, Met-enkephalin from enzymatic degradation. Kelatorphan is the first complete inhibitor of enkephalin metabolism and is the only compound to possess an analgesic activity greater than that of a mixture of thiorphan and bestatin (non-specific aminopeptidase inhibitor). A tritiated derivative of kelatorphan has been used to visualise the enkephalinase in the rat brain by means of autoradiography. The enzyme has a heterogeneous distribution with a particularly high concentration in the nigro-striatal system.
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PMID:[Enkephalinase inhibitors and molecular study of the differences between active sites of enkephalinase and angiotensin-converting enzyme]. 299 52

Analogies in the sequences of two related zinc metallopeptidases, the bacterial thermolysin (316 amino acids) and the recently cloned neutral endopeptidase 24.11 ("enkephalinase", 749 amino acids), have been demonstrated by a hydrophobic cluster analysis method derived from the Lim theory. Two sequence alignments are proposed for the entire primary structure of thermolysin and the C-terminal part of endopeptidase 24.11. Except for an arginine residue, all the amino acids involved in the active site of thermolysin have been retrieved in both models of endopeptidase 24.11 within conserved clustered structures. The first model is characterized by a deletion of the Ca2+-binding coil present in thermolysin and the second by replacement of this coil by two alpha-helices. In both models an Arg residue can be located in the active site of the neutral endopeptidase.
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PMID:Primary structure homologies between two zinc metallopeptidases, the neutral endopeptidase 24.11 ("enkephalinase") and thermolysin, through clustering analysis. 316 83

Direct comparison of the primary structure of neutral endopeptidase (NEP, EC 3.4.24.11) with that of thermolysin, a bacterial metalloendopeptidase with a similar specificity, has revealed very few similarities between the two sequences, except for two conserved short segments. In thermolysin, these segments contain several of the residues involved in catalysis, including two zinc coordinating histidines (His-142 and His-146) and a third histidine (His-231) involved in stabilizing the transition state through hydrogen bonding. The role of the corresponding histidines in NEP (His-583, His-587 and His-637) was explored by site-directed mutagenesis of NEP cDNA and expression of the mutated cDNA in COS-1 cells. Substitution of either His-583 or His-587 of NEP for Phe completely abolished the activity and Zn-directed inhibitor recognition of the recombinant enzyme, suggesting that these residues play a role similar to His-142 and His-146 of thermolysin as zinc ligands. In contrast, substitution of His-637 for a phenylalanine residue was without effect on enzyme activity.
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PMID:Exploration of the catalytic site of endopeptidase 24.11 by site-directed mutagenesis. Histidine residues 583 and 587 are essential for catalysis. 316 86

We designed phethiol (1-amino-1-benzyl-2-mercaptoethane) as a potent and selective inhibitor of Zn-containing aminopeptidases. This compound inhibited purified aminopeptidase M (EC.3.4.11.2) with a Ki of 5 nM but was at least 1000 times less potent against other metallopeptidases comprising angiotensin-converting enzyme EC 3.4.15.1), enkephalinase (EC 3.4.24.11), thermolysin (EC 3.4.24.4), or dipeptidylaminopeptidases. Phethiol alone significantly but partially protected endogenous (Met5) enkephalin released from depolarized brain slices, total protection being achieved when it was associated with an enkephalinase inhibitor. In order to obtain a parenterally-active inhibitor of cerebral aminopeptidases, the prodrug carbaphetiol, a readily hydrolyzable S-phenylcarbamoyl derivative of phethiol, was designed. Carbaphethiol (i.v.) elicited a rapid rise in mouse striatal level of Tyr-Gly-Gly, a characteristic extracellular metabolite of enkephalins. Carbapethiol alone and, even more, when associated with an enkephalinase inhibitor, exerted a potent naloxone-reversible antinociceptive activity. Carbaphethiol appears as the first parenterally-active inhibitor of cerebral aminopeptidases, potentially useful in neuropeptides degradation studies and as a pain-suppressing agent.
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PMID:Potent inhibition of cerebral aminopeptidases by carbaphethiol, a parenterally active compound. 324 26

A number of phosphonamidate and phosphonate tripeptide analogues have been studied as transition-state-analogue inhibitors of the zinc endopeptidase thermolysin. Those with the form Cbz-GlyP(Y)Leu-X [ZGP(Y)LX, X = NH2 or amino acid, Y = NH or O linkage] are potent (Ki = 9-760 nM for X = NH, 9-660 microM for X = O) but otherwise ordinary in their binding behavior, with second-order rate constants for association (kon) greater than 10(5) M-1 s-1. Those with the form Cbz-XP(Y)-Leu-Ala [ZXP(Y)LA,XP = alpha-substituted phosphorus amino acid analogue] are similarly potent (Ki for ZFPLA = 68 pM) but slow binding (kon less than or equal to 1300 M-1 s-1). Several kinetic mechanisms for slow binding behavior are considered, including two-step processes and those that require prior isomerization of inhibitor or enzyme to a rare form. The association rates of ZFPLA and ZFP(O)LA are first order in inhibitor concentration up to 1-2 mM, indicating that any loose complex along the binding pathway must have a dissociation constant above this value. The crystallographic investigation described in the preceding paper [Holden, H. M., Tronrud, D. E., Monzingo, A. F., Weaver, L. H., & Matthews, B. W. (1987) Biochemistry (preceding paper in this issue)] identifies a specific water molecule in the active site that may hinder binding of the alpha-substituted inhibitors. The implication of this observation for a mechanism for slow binding is discussed.
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PMID:Possible role for water dissociation in the slow binding of phosphorus-containing transition-state-analogue inhibitors of thermolysin. 344 76

The inhibitory potency of separate enantiomers of thiorphan and retrothiorphan has shown that several particularities of the active site of thermolysin are also present in the neutral endopeptidase 24.11, "enkephalinase", such as its ability: i) to recognize a retroamide bond as well as a standard amide bond, ii) to interact similarly with residues in P1' position of either R or S configuration in the thiorphan series but contrastingly to discriminate between the R and S isomers in the retrothiorphan series. These four inhibitors were modellized in the thermolysin active site and their spatial arrangement compared with that of a thiol inhibitor co-crystallized with thermolysin. In all cases, the essential interactions involved in the stabilization of the bound inhibitor were conserved. However, the bound (R) retrothiorphan displayed unfavorable intramolecular contacts, accounting for its lower inhibitory potency for the two metallopeptidases.
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PMID:Relationship between the inhibitory potencies of thiorphan and retrothiorphan enantiomers on thermolysin and neutral endopeptidase 24.11 and their interactions with the thermolysin active site by computer modelling. 347 46

The relationships between various properties of inhibitors of enkephalinase (membrane metalloendopeptidase, EC 3.4.24.11) i.e., enzyme inhibition, protection of endogenous enkephalins, antinociceptive activity and stimulation of locomotor activity was investigated by comparing the relative potencies of the two enantiomers of Thiorphan and acetorphan, its parenterally active prodrug. In vitro (R)- and (S)-Thiorphan were almost equipotent in inhibiting enkephalinase activity (Ki, 1.7 and 2.2 nM, respectively) or thermolysin activity (Ki, 13 and 6 microM, respectively) whereas the (R)-isomer was 44-fold less potent than the (S)-isomer on ACE activity (Ki 4800 and 110 nM, respectively). When tested on slices of rat globus pallidus in the presence of bestatin, to block the aminopeptidase pathway of enkephalin degradation, both Thiorphan enantiomers ensured a complete protection of endogenous (Met5)enkephalin released by depolarization and a suppression of the increase in the extracellular levels of Tyr-Gly-Gly, a characteristic enkephalin metabolite. These two effects occurred at EC50 values of the two enantiomers (10 nM in both cases), consistent with the idea that they were due to enkephalinase inhibition. After i.v. administration of the acetorphan enantiomers to mice, the enkephalinase activity of a rapidly prepared striatal membrane fraction was reduced in a dose-dependent manner with similar "ex vivo" ED50 values (1.0 and 0.3 mg/kg for the (R)- and (S)-isomer, respectively). In contrast the ACE activity of the same preparation was reduced in a significant manner only by (S)-acetorphan (ED50 value of 11 mg/kg).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Enantiomers of thiorphan and acetorphan: correlation between enkephalinase inhibition, protection of endogenous enkephalins and behavioral effects. 347 50

A comparison has been made of the specificity of the mammalian neutral metalloendopeptidase, endopeptidase 24.11, with that of the bacterial neutral metalloendopeptidase thermolysin. A series of synthetic oligopeptides which have previously been studied as substrates for thermolysin and used in computer modeling were examined as substrates for the mammalian enzyme. It was found that P1, P2, and P'3 subsite interactions in the mammalian enzyme, although similar to those found in thermolysin, are less restrictive spatially and are considerably less dependent on hydrophobic interactions. This difference was maximally expressed with the synthetic substrate dansyl-D-alanylglycylnitrophenylalanylglycine which is a substrate for the mammalian enzyme, but not for the bacterial enzyme. A comparison of substrates in the free acid form with their corresponding amides showed that binding to the mammalian enzyme is dependent in part on an ionic interaction between the substrate carboxylate group and the enzyme. Such an ionic interaction was not observed with the bacterial enzyme.
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PMID:Comparison of the subsite specificity of the mammalian neutral endopeptidase 24.11 (enkephalinase) to the bacterial neutral endopeptidase thermolysin. 351 94

Diethylpyrocarbonate treatment of the neutral endopeptidase (EC 3.4.24.11) inhibits both catalytic activity and binding of the inhibitor [3H]-N(R,S)-3-hydroxyaminocarbonyl-2-benzyl-1-oxopropyl]-glycine. The loss of activity can be reversed by hydroxylamine and almost completely prevented by the competitive inhibitor phenylalanyl-leucine suggesting the presence, as in thermolysin, of a histidine residue at the active site. Butanedione treatment also reduces both catalytic activity and [3H] inhibitor binding. Phenylalanyl-leucine completely protects from the butanedione induced loss of activity, providing further evidence for an essential arginine at the active site. In contrast, the tyrosine modifying agent N-acetylimidazole has no apparent effect on enzyme activity.
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PMID:Presence of a histidine at the active site of the neutral endopeptidase-24.11. 353 67

Novel fluorescent substrates for enkephalinase (neutral endopeptidase; EC 3.4.24.11) have been developed. These new assays are based on the disappearance of energy transfer between a tryptophan or a tyrosine residue and the 5-dimethylaminonaphthalene-1-sulfonyl group (dansyl) in the substrates dansyl-Gly-Trp-Gly or dansyl-Gly-Tyr-Gly upon hydrolysis of their Gly-Trp or Gly-Tyr amide bond by enkephalinase. No significant difference in Km or kcat values were found for dansyl-Gly-Trp-Gly and dansyl-Gly-Tyr-Gly, indicating that, in contrast to thermolysin, the active site of enkephalinase easily accommodates tryptophan residues. Both tryptophan and tyrosine-containing substrates can be used for continuous recording of enkephalinase activity and should prove useful for detailed study of the substrate specificity of this enzyme.
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PMID:New substrates for enkephalinase (neutral endopeptidase) based on fluorescence energy transfer. 354 27


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