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)

Exposure of human red cells to oxidants such as phenylhydrazine, 2,4-dimethylphenylhydrazine and 4-hydrazinobenzoic acid stimulates the proteolysis of hemoglobin as evidenced by the increase in the rate of the free alanine and acid soluble amino groups released. An enzyme responsible for proteolytic degradation of oxidized hemoglobin, was purified from cytosolic fraction of erythrocytes by a DEAE-batch procedure followed by gel-filtration and ion-exchange chromatography. The final enzyme preparation produces a single band in non-denaturing polyacrylamide gel electrophoresis, and eight different bands of 23-32 kDa when subjected to polyacrylamide gel electrophoresis under denaturing conditions. The native enzyme has a molecular mass of about 700 kDa as estimated by gel filtration. The enzyme, unable to hydrolyze native hemoglobin, cleaves phenylhydrazine-treated hemoglobin into small peptides without free amino acid release. In addition, the enzyme shows an endopeptidase activity towards synthetic peptides having a tyrosine or an arginine in the P1 position, whereas it does not hydrolyze shorter peptides and those with a proline in the P1 or P2 position. The proteolytic activity of the enzyme against oxidized hemoglobin is inhibited by chymostatin and p-chloromercuribenzoate, while it is stimulated by N-ethylmaleimide and epoxysuccinylleucylamido-(4-guanidino)butane (E-64). The peptidase activity assayed on succinyl-Leu-Leu-Val-Tyr-MCA is inhibited by chymostatin, hemin, N-ethylmaleimide and p-chloromercuribenzoate. The results obtained show that in human erythrocytes oxidized hemoglobin is cleaved into peptides by a high molecular mass proteinase identified as a member of the multicatalytic proteinase family. It is also suggested that the complete degradation of oxidized hemoglobin to free amino acids requires the involvement of a further proteolytic enzyme(s) which remain(s) to be identified.
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PMID:Purification of human erythrocyte proteolytic enzyme responsible for degradation of oxidant-damaged hemoglobin. Evidence for identifying as a member of the multicatalytic proteinase family. 217 87

Several different protease inhibitors have the ability to suppress transformation in vitro and carcinogenesis in vivo. The mechanism(s) by which protease inhibitors suppress carcinogenesis, however, is not fully understood. Presumably, these agents inhibit one or more intracellular proteases whose functions are essential for the induction and/or expression of the transformed phenotype. We have isolated an endopeptidase activity capable of hydrolyzing the substrate Boc-Val-Pro-Arg-MCA (Boc = butoxycarbonyl; MCA = 7-amino-4-methylcoumarin) from C3H/10T1/2 mouse embryo fibroblast cells. This intracellular protease was inhibited by the soybean-derived Bowman-Birk inhibitor (BBI), chymostatin, and L-1-tosylamido-2-phenylethyl chloromethyl ketone, all of which have anticarcinogenic activity, but was unaffected by soybean trypsin inhibitor, which lacks anticarcinogenic activity. Other protease inhibitors affected the proteolytic activity to an extent that correlates with their relative ability to suppress transformation in vitro. The enzyme has a mass of about 70 kDa, contains a single subunit, and exhibits maximal activity at pH 7.0. Diisopropyl fluorophosphate covalently binds to this enzyme and blocks its activity, indicating that the enzyme is a serine protease. We have previously demonstrated that several protease inhibitors are effective suppressors of radiation-induced transformation of C3H/10T1/2 cells. Since these agents reduce the Boc-Val-Pro-Arg-MCA-hydrolyzing activity to an extent that correlates with their ability to inhibit malignant transformation in vitro, this endopeptidase activity may be a cellular target of the anticarcinogenic protease inhibitors.
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PMID:A serine protease activity in C3H/10T1/2 cells that is inhibited by anticarcinogenic protease inhibitors. 329 74

Post-proline cleaving enzyme (PPCE; EC 3.4.21.26) is a proline specific endopeptidase capable of hydrolyzing biologically active peptides. The present studies examined the hydrolysis of kinin- and angiotensin-related peptides by cytosolic PPCE purified from porcine kidney. PPCE hydrolysis of the synthetic substrate Z-Gly-Pro-MCA (30.7 +/- 0.3 mumol . min-1 . mg-1) was competitively inhibited by saralasin, bradykinin, des(Arg9)bradykinin, [Leu8], des(Arg9)bradykinin and angiotensin II (IC50 = 0.5 to 7.0 microM). Qualitative TLC studies demonstrated that each peptide was degraded by hydrolysis on the carboxyl side of proline residues (positions 7 or 8). Quantitative HPLC studies established that peptide degradation was optimal at pH 8.2 to 8.7 and was inhibited by the specific PPCE inhibitor Z-Pro-prolinal (IC50 = 0.8 +/- 0.1 nM). Conversely, degradation was unaffected by inhibitors of aminopeptidases (amastatin), neutral endopeptidase (phosphoramidon), carboxypeptidase N (MERGETPA) or angiotensin I converting enzyme (captopril). Apparent Km values, obtained from Lineweaver-Burk analysis, were comparable for all kinin and angiotensin peptides (Km = 5.5 to 12.8 microM), whereas Vmax values ranged from 1.7 mumol . min-1 . mg-1 for angiotensin II to 0.44 mumol . min-1 . mg-1 for saralasin. These data are consistent with a role for PPCE in the degradation of kinins and angiotensin in vivo.
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PMID:Kinin and angiotensin metabolism by purified renal post-proline cleaving enzyme. 347 49

Cathepsin B was purified about 11,000-fold from monkey skeletal muscle by ammonium sulfate fractionation and sequential column chromatographies monitored by assaying of Z-Phe-Arg-MCA hydrolase activity. The purified enzyme gave a single protein band on SDS-polyacrylamide gel electrophoresis, and its molecular weight was estimated to be 24,000 by gel filtration. It had a pH optimum of 6.5, required a thiol reducing agent for activation, and was inhibited by various thiol protease inhibitors. These properties were similar to those reported for cathepsins B from other sources. Although the enzyme scarcely hydrolyzed ordinary proteins, such as casein, hemoglobin, and bovine serum albumin, it degraded myosin and actin among various myofibrillar proteins. These results strongly suggested that skeletal muscle cathepsin B may participate in the degradation of muscle proteins in vivo. In addition, cathepsin B was shown to hydrolyze various neuropeptides such as Leu-enkephalin, beta-neoendorphin, alpha-neoendorphin, dynorphin(1-13), and substance P. It appeared to act on these peptides mainly as a dipeptidyl carboxypeptidase, although not so rigorously, presumably due to its endopeptidase activity.
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PMID:Purification and characterization of cathepsin B from monkey skeletal muscle. 672 39

To characterize a chymotrypsin-like hydrolytic activity in the cell surface membranes of intact opossum kidney (OK) cells, we partially purified a protease from the membrane fractions of OK cells using Suc-Leu-Leu-Val-Tyr-MCA (Suc, succinyl; MCA, 4-methylcoumaryl-7-amide), a synthetic substrate for chymotrypsin, as the substrate. The semipure enzyme showed seryl chymotrypsin-like characteristics such as preferential hydrolysis of Suc-Leu-Leu-Val-Tyr-MCA and inhibition by phenylmethylsulfonyl fluoride, diisopropylfluorophosphate, and chymostatin. However, it clearly differed from alpha-chymotrypsin in its weak ability to hydrolyze Suc-Ala-Ala-Pro-Phe-MCA and in its high molecular mass (250-300 kDa). The enzyme also had an endopeptidase-like activity in that it cleaved human parathyroid hormone(1-84) at the Leu(37)-Gly(38) and Arg(52)-Lys(53) bonds. These results suggest that a high molecular mass chymotrypsin-like endopeptidase with unique characters is present in the membrane fractions of OK cells.
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PMID:Characterization of a chymotrypsin-like hydrolytic activity in the opossum kidney cell. 781 50

By employing various synthetic substrates, as well as soluble denatured protein substrate (TAP-lysozyme) and its derivatives, endopeptidase activity of cathepsin C, dipeptidyl aminopeptidase I [EC 3.4.14.1], from bovine spleen was investigated. Cathepsin C efficiently degraded Z-Phe-Arg-MCA, Pro-Phe-Arg-MCA, and Suc-Leu-Leu-Val-Tyr-MCA. This endopeptidase activity required sulfhydryl reagents and halide ions, as in the case of the dipeptidyl aminopeptidase (DAP) activity. We confirmed that this endopeptidase activity is due to cathepsin C itself based on the results on gel-filtration and anion-exchange chromatographies, comparative studies of the inhibitory effects of leupeptin and E-64 on this activity and those of cathepsins B and L, and further the competitive inhibitions by mutual substrates for the DAP and endopeptidase activities of cathepsin C. We also found that cathepsin C endopeptidase activity towards TAP-lysozyme and its N-alpha-acetylated tryptic peptides showed marked dependence on sulfhydryl reagents and chloride ion. Thus, we concluded that cathepsin C has endopeptidase activity as well as DAP activity. The binding energy between the enzyme and the amino acid side chains of the substrate may be as important for the endopeptidase activity as is the electrostatic interaction between the enzyme and the free alpha-amino group of the substrate for the DAP activity.
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PMID:Endopeptidase activity of cathepsin C, dipeptidyl aminopeptidase I, from bovine spleen. 851 33

The main feature distinguishing cathepsin B from other cysteine proteases of the papain family is the presence of a large insertion loop, termed the occluding loop, which occupies the S' subsites of the enzyme. The loop is held in place mainly by two contacts with the rest of the enzyme, involving residues His110 and Arg116 on the loop that form salt bridges with Asp22 and Asp224, respectively. The influence of this loop on the endopeptidase activity of cathepsin B has been investigated using site-directed mutagenesis and internally quenched fluorogenic (IQF) substrates. Wild-type cathepsin B displays poor activity against the substrates Abz-AFRSAAQ-EDDnp and Abz-QVVAGA-EDDnp as compared to cathepsin L and papain. Appreciable increases in kcat/KM were observed for cathepsin B containing the single mutations D22A, H110A, R116A, and D224A. The highest activity however is observed for mutants where both loop to enzyme contacts are disrupted. For the triple-mutant D22A/H110A/R116A, an optimum kcat/KM value of 12 x 10(5) M-1 s-1 was obtained for hydrolysis of Abz-AFRSAAQ-EDDnp, which corresponds to a 600-fold increase relative to wild-type cathepsin B and approaches the level of activity observed with cathepsin L or papain. By comparison, the mutations have little effect on the hydrolysis of Cbz-FR-MCA. The influence of the mutations on the pH dependency of activity also indicates that the complexity of pH activity profiles normally observed for cathepsin B is related to the presence of the occluding loop. The major increase in endopeptidase activity is attributed to an increase in loop "flexibility" and suggests that the occluding loop might move when an endopeptidase substrate binds to the enzyme. The possible contribution of these interactions in regulating endopeptidase activity and the implications for cathepsin B activity in physiological or pathological conditions are discussed.
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PMID:Major increase in endopeptidase activity of human cathepsin B upon removal of occluding loop contacts. 937 67

Four members of the tissue kallikrein family, mK1, mK9, mK13, and mK22, all of which exhibit extensive homology in amino acid sequence among themselves, were obtained from the submandibular gland of ICR mice and examined for their ability to cleave prorenin. Tissue kallikrein mK13 was confirmed to be a prorenin-converting enzyme; and mK9, which was earlier shown to be an EGF-binding protein, was found to cleave mouse Ren 2 prorenin specifically and convert it to mature renin with an activity of approximately 1/10 of that of mK13. With the same substrate, mK22 (beta-NGF endopeptidase) gave two products, renin and arginyl-renin; whereas mK1 (true tissue kallikrein) did not process it at all. The endoproteolytic activity of tissue kallikreins was examined with various peptide-MCA substrates. The substrates contained three key structures; X(Y)-Arg-Arg, X(Y)-Lys-Arg and X-Lys-Lys motifs (where X and Y are hydrophilic and hydrophobic amino acids, respectively). We found that mK1, mK9 and mK13 preferentially cleaved the former two types of substrate, except Y-Arg-Arg-MCA. The substrate X-Lys-Lys-MCA was hardly cleaved by these three tissue kallikreins but was preferentially cleaved by mK22. The four tissue kallikreins seem to have the ability to process precursor proteins containing a pair of basic amino acid residues; the specificities of three of the enzymes (mK1, mK9 and mK13) were similar to each other but were different from that of mK22.
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PMID:Prorenin processing and restricted endoproteolysis by mouse tissue kallikrein family enzymes (mK1, mK9, mK13, and mK22). 950 64

The specificity of cysteine proteases is characterized by the nature of the amino acid sequence recognized by the enzymes (sequence specificity) as well as by the position of the scissile peptide bond (positional specificity, i.e., endopeptidase, aminopeptidase, or carboxypeptidase). In this paper, the interdependency of sequence and positional specificities for selected members of this class of enzymes has been investigated using fluorogenic substrates where both the position of the cleavable peptide bond and the nature of the sequence of residues in P2-P1 are varied. The results show that cathepsins K and L and papain, typically considered to act strictly as endopeptidases, can also display dipeptidyl carboxypeptidase activity against the substrate Abz-FRF(4NO2)A and dipeptidyl aminopeptidase activity against FR-MCA. In some cases the activity is even equal to or greater than that observed with cathepsin B and DPP-I (dipeptidyl peptidase I), which have been characterized previously as exopeptidases. In contrast, the exopeptidase activities of cathepsins K and L and papain are extremely low when the P2-P1 residues are A-A, indicating that, as observed for the normal endopeptidase activity, the exopeptidase activities rely heavily on interactions in subsite S2 (and possibly S1). However, cathepsin B and DPP-I are able to hydrolyze substrates through the exopeptidase route even in absence of preferred interactions in subsites S2 and S1. This is attributed to the presence in cathepsin B and DPP-I of specific structural elements which serve as an anchor for the C- or N-terminus of a substrate, thereby allowing favorable enzyme-substrate interaction independently of the P2-P1 sequence. As a consequence, the nature of the residue at position P2 of a substrate, which is usually the main factor determining the specificity for cysteine proteases of the papain family, does not have the same contribution for the exopeptidase activities of cathepsin B and DPP-I.
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PMID:Interdependency of sequence and positional specificities for cysteine proteases of the papain family. 1020 Jan 76

Cathepsin X is a novel cysteine protease which was identified recently from the EST (expressed sequence tags) database. In a homology model of the mature cathepsin X, a unique three residue insertion between the Gln22 of the oxyanion hole and the active site Cys31 was found to be located in the primed region of the binding cleft as part of a surface loop corresponding to residues His23 to Tyr27, which we have termed the "mini-loop". From the model, it became apparent that this distinctive structural feature might confer exopeptidase activity to the enzyme. To verify this hypothesis, human procathepsin X was expressed in Pichia pastoris and converted to mature cathepsin X using small amounts of human cathepsin L. Cathepsin X was found to display excellent carboxypeptidase activity against the substrate Abz-FRF(4NO(2)), with a k(cat)/K(M) value of 1.23 x 10(5) M(-)(1) s(-)(1) at the optimal pH of 5.0. However, the activity of cathepsin X against the substrates Cbz-FR-MCA and Abz-AFRSAAQ-EDDnp was found to be extremely low, with k(cat)/K(M) values lower than 70 M(-)(1) s(-)(1). Therefore, cathepsin X displays a stricter exopeptidase activity than cathepsin B. No inhibition of cathepsin X by cystatin C could be detected up to a concentration of 4 microM of inhibitor. From a model of the protease complexed with Cbz-FRF, the bound carboxypeptidase substrate is predicted to establish a number of favorable contacts within the cathepsin X binding site, in particular with residues His23 and Tyr27 from the mini-loop. The presence of the mini-loop restricts the accessibility of cystatin C as well as of the endopeptidase and MCA substrates in the primed subsites of the protease. The marked structural and functional differences of cathepsin X relative to other members of the papain family of cysteine proteases will be of great value in designing specific inhibitors useful as research tools to investigate the physiological and potential pathological roles of this novel enzyme.
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PMID:Human cathepsin X: A cysteine protease with unique carboxypeptidase activity. 1050 34


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