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:3.4.24.27 (thermolysin)
1,894 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dried bonito (Katsuobusi), a Japanese traditional seasoning made of bonito muscle was hydrolyzed by various proteases and the inhibitory activity of the hydrolyzates for angiotensin I-converting enzyme (ACE) [EC 3.4.15.1] was measured. Among the digests, thermolysin digest showed the most potent inhibitory activity. Eight inhibitory peptides were isolated from the digest using HPLC. The amino acid sequences of inhibitory peptides were Ile-Lys-Pro-Leu-Asn-Tyr, Ile-Val-Gly-Arg-Pro-Arg-His-Gln-Gly, Ile-Trp-His-His-Thr, Ala-Leu-Pro-His-Ala, Phe-Gln-Pro, Leu-Lys-Pro-Asn-Met, Ile-Tyr, and Asp-Tyr-Gly-Leu-Tyr-Pro. By searching for the sequence homology in many proteins, four of them were found in the primary structure of actin. Asp-Met-Ile-Pro-Ala-Gln-Lys was obtained from the boiling water extract of dried bonito and this peptide was found in the primary structure of creatine kinase. Fragments of these peptides were prepared by further enzymatic digestion or chemical synthesis and their ACE-inhibitory activities were measured. Among them, Ile-Lys-Pro, Ile-Trp, Leu-Lys-Pro, and Leu-Tyr-Pro had higher inhibitory activity than their parental peptides. Ile-Lys-Pro suppressed the hypertensive activity of angiotensin I.
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PMID:Peptide inhibitors for angiotensin I-converting enzyme from thermolysin digest of dried bonito. 136 54

Plasma inactive renin (IRA) were assayed through open heart surgery by trypsin treatment in twenty-two patients. Postoperatively plasma renin activities and IRA increased, remarkably in IRA, however total renin activities were lesser than plasma renin activities during extracorporeal circulation. From the results of addition of 125I-angiotensin I before trypsin treatment, the presence of unknown enzyme was assumed, which was activated by trypsin and catalyzed angiotensin I in extracorporeal circulation. Bacterial enzyme, thermolysin, also activated plasma inactive renin, more stably until 60 min at 0-37 degrees C than trypsin. By trypsin, activities were in peaks at 1 min and gradually decreased thereafter. Conclusively we could assess the superiority of thermolysin treatment over trypsin treatment.
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PMID:[Assessment of plasma inactive renin by trypsin and thermolysin treatment during open heart surgery]. 266 Feb 9

Although about 90% of human renin circulates as inactive prorenin, the mechanism of prorenin activation in vivo is not known. We found that human polymorphonuclear leukocytes (PMN) activate prorenin at a neutral pH. Prorenin was partially purified from human amniotic fluid, and its activation was measured by the release of angiotensin I from sheep angiotensinogen. In control experiments, thermolysin was the standard activator. PMN cells were separated from blood and, after N2 cavitation or degranulation by cytochalasin, were fractionated by differential centrifugation. Elastase and cathepsin G activities were determined with synthetic fluorescent substrates. The activators of prorenin concentrated in the azurophil granules were released by Triton; most of the activation was due to elastase. Elastase, purified from human PMN, activated prorenin completely. The activation by the granular fraction was inhibited 77% by a specific elastase inhibitor in the presence of a detergent, but only 22% by a cathepsin G inhibitor. After inhibition of elastase, the residual activity was inhibited by diisopropylfluorophosphate; thus, it was due to a serine protease(s) such as cathepsin G. We suggest that human renin fully activated by elastase may still contain an N-terminal pentapeptide fragment of the propeptide.
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PMID:Activation of human prorenin by neutrophil elastase. 331 66

Human renin occurs in a latent form as prorenin in blood and amniotic fluid. We found that the metalloprotease thermolysin is a more potent activator of amniotic and plasma prorenin than trypsin, provided the thermolysin alpha 2-macroglobulin plasma inhibitor was inactivated. Thermolysin fully activated amniotic prorenin at a 23-fold lower molar concentration than trypsin, and renin activated by thermolysin was more stable than when activated by trypsin. Thermolysin also activated plasma prorenin at a 16-fold lower concentration than trypsin in the presence of methylamine (100 mM). Thermolysin activated prorenin directly, because added inhibitors of other endogenous proteases did not block the activation. The maximum activation values obtained after incubation with trypsin or thermolysin in plasma samples from 17 normotensive and 58 hypertensive subjects were similar. The mean renin concentration did not differ significantly in normotensives and hypertensives, but after activation, total renin was significantly higher in hypertensive subjects (89.8 vs. 53.4 ng angiotensin I/h . ml). The Km of the substrate, angiotensinogen, was about the same with both active renin and activated prorenin (281-290 nM). The mol wt of prorenin was 60,000 after gel filtration; activation by thermolysin reduced it to 51,000. Thus, thermolysin, which has a different peptide bond specificity than trypsin, is another model for a prorenin activator.
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PMID:Activation of plasma and amniotic prorenin by metalloprotease and trypsin. 351 Oct 83

A porcine kidney microsomal metalloendopeptidase has been enriched 3900-fold. Gel filtration on a calibrated Toyo-Soda G-3000 SW column indicated an appropriate molecular weight for the endopeptidase of 88,000 +/- 2000. The purified enzyme is inhibited by a number of synthetic inhibitors of thermolysin. The endopeptidase hydrolyzes the succinyl (Suc)-containing fluorogenic peptide substrate Suc-Ala-Ala-Phe-(7-amino-4-methylcoumarin) at the Ala-Phe position with a Km of 2.9 X 10(-4) M. The endopeptidase also hydrolyzes a variety of peptides including corticotropin, substance P, angiotensin I and II, neurotensin, somatostatin, bradykinin, and the renin tetradecapeptide substrate. The endopeptidase hydrolyzes both [Leu]- and [Met]enkephalin at the Gly-Phe bond.
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PMID:Purification of a membrane-bound metalloendopeptidase from porcine kidney that degrades peptide hormones. 703 58

Vimelysin is a novel alcohol resistant metalloproteinase from Vibrio sp. T1800. The substrate specificity of vimelysin was studied by using natural and furylacryloyl dipeptide substrates. Vimelysin cleaved mainly Pro7-Phe8 bond and slightly Tyr4-Ile5 bond in human angiotensin I. Vimelysin also cleaved mainly Phe24-Phe25 and Tyr16-Leu17 bonds, and slightly His5-Leu6, His10-Leu11, Ala14-Leu15, and Gly23-Phe24 bonds in oxidized insulin B-chain. The substrate specificity of vimelysin, by using furylacryloyl (Fua) dipeptides were also studied. The ratio of kcat/Km for Fua-Gly-Phe-NH2/Fua-Gly-Leu-NH2, Fua-Phe-Leu-NH2/Fua-Gly-Leu-NH2, and Fua-Phe-Phe-NH2/Fua-Gly-Leu-NH2 were 15.9, 27.8, and 59.0, respectively. These results indicate that vimelysin easily recognizes phenylalanine in P1' positions, which is different from thermolysin.
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PMID:Substrate specificity of a novel alcohol resistant metalloproteinase, vimelysin, from Vibrio sp. T1800. 898 63

Angiotensin (Ang) I-converting enzyme (ACE) is a member of the gluzincin family of zinc metalloproteinases that contains two homologous catalytic domains. Both the N- and C-terminal domains are peptidyl-dipeptidases that catalyze Ang II formation and bradykinin degradation. Multiple sequence alignment was used to predict His(1089) as the catalytic residue in human ACE C-domain that, by analogy with the prototypical gluzincin, thermolysin, stabilizes the scissile carbonyl bond through a hydrogen bond during transition state binding. Site-directed mutagenesis was used to change His(1089) to Ala or Leu. At pH 7.5, with Ang I as substrate, k(cat)/K(m) values for these Ala and Leu mutants were 430 and 4,000-fold lower, respectively, compared with wild-type enzyme and were mainly due to a decrease in catalytic rate (k(cat)) with minor effects on ground state substrate binding (K(m)). A 120,000-fold decrease in the binding of lisinopril, a proposed transition state mimic, was also observed with the His(1089) --> Ala mutation. ACE C-domain-dependent cleavage of AcAFAA showed a pH optimum of 8.2. H1089A has a pH optimum of 5.5 with no pH dependence of its catalytic activity in the range 6.5-10.5, indicating that the His(1089) side chain allows ACE to function as an alkaline peptidyl-dipeptidase. Since transition state mutants of other gluzincins show pH optima shifts toward the alkaline, this effect of His(1089) on the ACE pH optimum and its ability to influence transition state binding of the sulfhydryl inhibitor captopril indicate that the catalytic mechanism of ACE is distinct from that of other gluzincins.
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PMID:Angiotensin I-converting enzyme transition state stabilization by HIS1089: evidence for a catalytic mechanism distinct from other gluzincin metalloproteinases. 1106 54

Dcp from Escherichia coli is a 680 residue cytoplasmic peptidase, which shows a strict dipeptidyl carboxypeptidase activity. Although Dcp had been assigned to the angiotensin I-converting enzymes (ACE) due to blockage by typical ACE inhibitors, it is currently grouped into the M3 family of mono zinc peptidases, which also contains the endopeptidases neurolysin and thimet oligopeptidase (TOP). We have cloned, expressed, purified, and crystallized Dcp in the presence of an octapeptide "inhibitor", and have determined its 2.0A crystal structure using MAD methods. The analysis revealed that Dcp consists of two half shell-like subdomains, which enclose an almost closed two-chamber cavity. In this cavity, two dipeptide products presumably generated by Dcp cleavage of the octapeptide bind to the thermolysin-like active site fixed to side-chains, which are provided by both subdomains. In particular, an Arg side-chain backed by a Glu residue, together with two Tyr phenolic groups provide a charged anchor for fixing the C-terminal carboxylate group of the P2' residue of a bound substrate, explaining the strict dipeptidyl carboxypeptidase specificity of Dcp. Tetrapeptidic substrates are fixed only via their main-chain functions from P2 to P2', suggesting a broad residue specificity for Dcp. Both subdomains exhibit very similar chain folds as the equivalent but abducted subdomains of neurolysin and TOP. Therefore, this "product-bound" Dcp structure seems to represent the inhibitor/substrate-bound "closed" form of the M3 peptidases, generated from the free "open" substrate-accessible form by a hinge-bending mechanism. A similar mechanism has recently been demonstrated experimentally for ACE2.
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PMID:Crystal structure of the E. coli dipeptidyl carboxypeptidase Dcp: further indication of a ligand-dependent hinge movement mechanism. 1587 71

In this project we report on the angiotensin I-converting enzyme (ACE)-inhibitory activity of a bovine gelatin hydrolysate (Bh2) that was submitted to further hydrolysis by different enzymes. The thermolysin hydrolysate (Bh2t) showed the highest in vitro ACE inhibitory activity, and interestingly a marked in vivo blood pressure-lowering effect was demonstrated in spontaneously hypertensive rats (SHR). In contrast, Bh2 showed no effect in SHR, confirming the need for the extra thermolysin hydrolysis. Hence, an angiotensin I-evoked contractile response in isolated rat aortic rings was inhibited by Bh2t, but not by Bh2, suggesting ACE inhibition as the underlying antihypertensive mechanism for Bh2t. Using mass spectrometry, seven small peptides, AG, AGP, VGP, PY, QY, DY and IY or LY or HO-PY were identified in Bh2t. As these peptides showed ACE inhibitory activity and were more prominent in Bh2t than in Bh2, the current data provide evidence that these contribute to the antihypertensive effect of Bh2t.
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PMID:Angiotensin I-converting enzyme inhibitory activity of gelatin hydrolysates and identification of bioactive peptides. 2117 70

The angiotensin-converting enzyme (ACE) exhibits critical functions in the conversion of angiotensin I to angiotensin II and the degradation of bradykinin and other vasoactive peptides. As a result, the ACE inhibition has become a promising approach in the treatment of hypertension, heart failure, and diabetic nephropathy. Extending our recent molecular dynamics simulation of the testis ACE in complex with a bona fide substrate molecule, hippuryl-histidyl-leucine, we presented here a detailed investigation of the hydrolytic process and possible influences of the chloride ion on the reaction using a combined quantum mechanical and molecule mechanical method. Similar to carboxypeptidase A and thermolysin, the promoted water mechanism is established for the catalysis of ACE. The E384 residue was found to have the dual function of a general base for activating the water nucleophile and a general acid for facilitating the cleavage of amide C-N bond. Consistent with experimental observations, the chloride ion at the second binding position is found to accelerate the reaction rate presumably due to the long-range electrostatic interactions but has little influence on the overall substrate binding characteristics.
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PMID:Catalytic mechanism of angiotensin-converting enzyme and effects of the chloride ion. 2367 66


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