EC:3.4.23.5 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.23.5 (cathepsin D)
4,130 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Proteolytic activity was estimated in lymphocyte lysates of cattle in normal state and in chronic lympholeukosis using 3H-acetylated casein (pH 7.4) and 3H-acetylated hemoglobin (pH 4.0) as substrates. Distinct individual variations in the enzymatic activity were observed either in neutral or slightly-acid media in the animal groups studied. In chronic lympholeukosis specific proteolytic activity, calculated per a cell, was decreased, while it was increased in calculation per a mg of protein. The lower content of protein (about 2.4-fold) was found in lysates of lymphocytes in chronic lympholeukosis as compared with normal state. An increase in proteolytic activity in lymphocyte lysates correlated with elevation of blood leukocytosis if chronic lympholeukosis developed in individual animals. Effects of a number of proteinase inhibitors and activators were studied in the cell lysates; the spectrum of proteinases in chronic lympholeukosis was dissimilar to that of normal state. Pepstatin inhibited quite completely the proteolytic activity at pH 4.0 in lymphocytes of healthy animals and hence cathepsin D was responsible for the activity; in chronic lympholeukosis, except of cathepsin D, thiol-dependent proteinase was also detected. Activity of proteinases at neutral pH value in lymphocytes of healthy and impaired animals was inhibited by phenylmethionine fluorosulfate and p-chloromercuribenzoate, thus suggesting that serine and thiol-dependent proteinases were present; the level of these enzymes was distinctly higher in chronic lympholeukosis as compared with normal state.
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PMID:[Comparative characteristics of lymphocyte proteolytic enzymes in normal conditions and in chronic lymphoid leukemia]. 353 48

An erythrocyte membrane-associated cathepsin D-like acid proteinase, termed "EMAP," was purified to homogeneity from freshly collected rat blood in a yield of 60-65%. The molecular weight of the enzyme was determined to be 80,000-82,000 by Sephadex G-100 gel filtration. The enzyme was inhibited strongly by pepstatin and partially by HgCl2, Pb(NO3)2, and iodoacetic acid. The preferred substrate for the enzyme was hemoglobin. The enzyme also hydrolyzed serum albumin and casein, but to lesser extents, with an optimum pH of 3.5-4.0. However, it could not hydrolyze leucyl-2-naphthylamide, benzyloxycarbonyl-Phe-Arg-4-methyl-7-coumarylamide or other synthetic substrates at pH values ranging from 3.5 to 9.5. The enzyme was very similar to human EMAP in a number of enzymatic properties, whereas it differed from rat cathepsin D in several respects, such as pH stability, molecular weight, isoelectric point, and chromatographic properties. Immunologically, the enzyme cross-reacted with the rabbit antibody prepared against human EMAP. The patterns of immunoelectrophoresis, immunoblotting, and immunoprecipitation of the enzyme were remarkably similar, if not identical, to those of human EMAP. In contrast, rat EMAP showed no reaction with the rabbit antibody raised to rat spleen cathepsin D. These results indicate that EMAP is a unique cathepsin D-like acid proteinase different from ordinary cathepsin D.
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PMID:Isolation, and catalytic and immunochemical properties of cathepsin D-like acid proteinase from rat erythrocytes. 354 79

A study was made of the total and nonsedimented activity of 4 lysosomal proteinases in the liver, kidneys and blood serum of rats fed for 4 months krill protein isolate (AtlantNIRO) as the only source of protein or that replaced by 50% with a control protein (casein) contained by the 18% protein (in terms of caloricity) diet. The use of the krill isolate as the only source of protein brought about a significant increase in the total activity of cathepsin A and cathepsin D and in nonsedimented activity of cathepsins A, D, B and C in rat liver (by 95, 23, 32 and 50%, respectively). Meanwhile in the kidneys, there was an increase in the total activity of cathepsins A and D. Proteinases A, D, B and C were activated in the blood serum. The 50% replacement of the krill isolate by casein elicited a substantial decrease in the adverse effect of the krill protein isolate on metabolic processes in rats.
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PMID:[Effect of the consumption of krill protein isolates on lysosomal proteinase activity in rats]. 390 7

Biochemical studies of acidic lens protein degrading activity in the bovine ciliary body were performed. The activity showed two peaks, Fractions A and B, on Sephadex G-75 column chromatography. Fraction A contained cathepsin D and thiol proteinase activities and was inhibited by pepstatin and leupeptin. Fraction B contained thiol proteinase activity and was inhibited by leupeptin. The proportion of peptide released from the lens protein by Fractions A and B was higher than those from bovine serum albumin and casein. Lens protein may be a good assay substrate for cathepsin D and lysosomal thiol proteinase in the ciliary body.
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PMID:Acidic lens protein degrading activity in bovine ciliary body. 390 20

The action and some properties of cathepsin D, partly purified from unfertilized loach eggs, embryos and skeletal muscles were determined. The enzyme from embryo cells displays the activity maximum at pH 3.0 and pH 4.8 while enzyme from skeletal muscles--only at pH 3.0. Cathepsin D purified from all three sources splits actively hemoglobin, albumin, alpha-glycerophosphate dehydrogenase, pyruvate kinase and practically does not influence casein, hexokinase, glucose-6-phosphate dehydrogenase. The enzyme is comparatively thermolabile and its activity decreases in the presence of thiol compounds. The main part of cathepsin D in skeletal muscle cells and in embryo cells is precipitated after differential centrifugation of homogenates (25000 g; 60 min).
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PMID:[Properties of cathepsin D from unfertilized eggs, embryos and skeletal muscles of the loach]. 404 Jun 74

1. Cathepsin B1 was purified from human liver by a method involving autolysis, fractional precipitation with acetone, adsorption on, and stepwise elution from, CM-cellulose and an organomercurial adsorbent, gel chromatography and finally equilibrium chromatography on CM-cellulose. 2. The early stages of the procedure, including the use of the organomercurial adsorbent, were suitable for the simultaneous isolation of cathepsin D. The two cathepsins were sharply separated on the organomercurial column, and particular attention was given to the method for the preparation and use of this adsorbent. 3. A method is described for the staining of analytical isoelectric-focusing gels for cathepsin B1 activity, as well as protein. By this method it was shown that cathepsin B1 was represented by at least six isoenzymes during the greater part of the purification procedure. After the gel-chromatography step this group of isoenzymes was obtained essentially free of other proteins, in good yield. The isoenzymes were resolved from this mixture by chromatography on CM-cellulose. The purified enzyme was stable for several weeks at slightly acid pH values in the absence of thiol compounds; it was unstable above pH7. 4. The pI values of the isoenzymes of cathepsin B1 extended from pH4.5 to 5.5, that of the major isoenzyme tending to increase from 5.0 to 5.2 during the purification procedure. Gel chromatography indicated a molecular weight of 27500 for all of the isoenzymes, whereas polyacrylamide-gel electrophoresis in the presence of sodium dodecyl sulphate gave a value of 24000. 5. An antiserum raised in sheep against the purified enzyme reacted specifically with the alkali-denatured molecule. Purified cathepsin B1 contained no material precipitable by an anti-(human cathepsin D) serum. 6. The enzyme hydrolysed several N-substituted derivatives of l-arginine 2-naphthylamide, as well as haemoglobin, azo-haemoglobin, azo-globin and azo-casein. Greatest activity was obtained near pH6.0. 7. The sensitivity of human cathepsin B1 to chemical inhibitors was generally similar to that of other thiol proteinases. The enzyme was inactivated by the chloromethyl ketones derived from tosylphenylalanine, tosyl-lysine, acetyltetra-alanine and acetyldialanylprolylalanine. 8. The hydrolysis of alpha-N-benzoyl-dl-arginine 2-naphthylamide by extracts of human liver at pH6 was attributable entirely to cathepsin B1.
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PMID:Human cathepsin B1. Purification and some properties of the enzyme. 412 67

Proteolytic enzymes have been studied in extracts of human articular cartilage by the use of micromethods. The digestion of hemoglobin at pH 3.2 and of cartilage proteoglycan at pH 5 was shown to be due chiefly to cathepsin D. Cathepsin D was purified 900-fold from human patellar cartilage. Its identity was established by its specific cleavage of the B chain of insulin. At least six multiple forms of cathepsin D are present in cartilage; these corresponded to bovine forms 4-9. Cathepsin D had no action on proteins at pH 7.4. However, cartilage extracts digested proteoglycan, casein, and histone at this pH. The proteolytic activities against these three substrates were purified about 170-, 160-, and 70-fold, respectively. Each activity appeared in multiple forms on DEAE-Sephadex chromatography. The three activities appear to be different since cysteine inhibited casein digestion, aurothiomalate inhibited histone digestion, and neither inhibited proteoglycan digestion. Tests with a wide range of inhibitors and activators suggest that these three activities differ from other neutral proteases described in the literature.
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PMID:Neutral proteases and cathepsin D in human articular cartilage. 427 25

The role of cardiac lysosomal and nonlysosomal protease alterations in the development of the cardiomyopathy that occurs in genetically diabetic C57BL/KsJ db/db mice has been examined. The db/db mice and age-matched controls were sacrificed between 7 and 24 weeks of age. Cathepsin D activity, myofibrillar alkaline protease (MAP) activity (including serine protease activity), and Ca2+-activated protease activity were determined by using [3H]acetyl-casein as substrate. There is a significant decrease in cathepsin D, MAP, and serine protease activities in the myocardium of 7- to 20-week old diabetic mice with a rebound of these activities toward normal levels by 24 weeks of age. Cathepsin D and MAP activities are inversely related to heart weight in diabetic mice with the higher levels being recorded in association with the most pronounced decrease in heart weight. In contrast, Ca2+-activated protease activity in the hearts of diabetic mice does not differ significantly from controls throughout the period of observation. The results suggest that both lysosomal cathepsin D and nonlysosomal MAP may mediate the accelerated cardiac muscle degradation that occurs in the late stage of diabetic cardiomyopathy in the db/db mice.
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PMID:Lysosomal and nonlysosomal proteolytic activities in experimental diabetic cardiomyopathy. 632 62

A method for the preparation of casein labelled with the 4-methylumbelliferyl fluorophore is described, and the product was used as a fluorigenic macromolecular substrate for a sensitive assay of the activity of proteinases. Nanogram quantities of trypsin, chymotrypsin, elastase and cathepsin D can be detected, but the substrate is unaffected by cathepsin B.
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PMID:Fluorigenic method for the assay of proteinase activity with the use of 4-methylumbelliferyl-casein. 634 7

Two-kidney, one clip Goldblatt hypertension of 2, 4 and 8 weeks duration was induced in 100-g male Wistar-Kyoto rats. Nucleic acid content was determined in the isolated cardiac muscle cells from the left ventricle. The profile for several major proteolytic activities in either isolated cardiac muscle cells or left ventricle preparations was also studied, using [3H]acetyl-casein as substrate. From the soluble fraction of the tissue or cell preparation, a pH 6 proteolytic activity, two forms of calcium-activated protease as well as cathepsin D were identifiable by inhibitor assay or DEAE-cellulose chromatography. From the myofibrillar fraction of the same preparation, two kinds of proteolytic activity were detected at alkaline pH: a phenylmethylsulfonyl fluoride (PMSF) inhibitable activity that was serine protease-like and the other a N-ethylmaleimide (NEM) inhibitable activity that resembled Ca2+-activated protease. At 2 weeks of hypertension, there was a significant increase in the pH 6 proteolytic activity as well as the calcium-activated protease I and the NEM-inhibitable alkaline protease activities, while the other identifiable proteolytic activities remained unchanged. Lysosomal cathepsin D showed a rise in activity only after 8 weeks of hypertension. These results may be related to the development of myocyte necrosis and lysis that occur in this model of hypertensive cardiomyopathy.
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PMID:Proteolytic activities in hypertensive cardiomyopathy of rats. 634 96

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