EC:3.4.23.5 - FACTA Search

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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)

The preparation and properties of cathepsin D from rat liver are reported. The enzyme is an endopeptidase of lysosomal origin. The molecular weight was estimated to be 49000 by sodium-dodecylsulfate electrophoresis. We did not find any dissociation into subunits under reducing conditions, in contrast to some other authors. We found the enzyme to occur in at least 4 forms with the isoelectric points 5.87, 5.65, 5.41 and 5.13. Strong -SH-blocking reagents inhibit the activity, but the most powerful and specific inhibitor was pepstatin (Ki=38 nM). The substrate specificity is discussed. There was no proof for any zymogen activation in a great number of experiments. Since the cathepsins B1, B3 and L obviously seem to play the major role in the intracellular protein breakdown within the rat liver, the main task of cathepsin D is the degradation of extracellular proteins in this organ.
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PMID:[Intracellular protein breakdown. VI. Isolation, properties and biological significance of cathepsin D from rat liver]. 0 65

1. The procedure of Barrett [(1973) Biochem. J.131, 809-822] for isolating cathepsins B and D from human liver was modified for use with rat liver and skeletal muscle. The purified enzymes appeared to be similar to those reported in other species. 2. Sephadex G-75 chromatography of concentrated muscle extract resolved two peaks of cathepsin B inhibitory activity, corresponding to molecular weights of 12500 and 62000. 3. The degradation of purified myofibrillar proteins by cathepsins B and D was clearly demonstrated by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. After incubation with enzyme, the polypeptide bands representing the substrates decreased in intensity and lower molecular weight products appeared. 4. Cathepsins B and D, purified from either rat liver or skeletal muscle, were shown to degrade myosin, purified from either rabbit or rat muscle. Soluble denatured myosin was degraded more extensively than insoluble native myosin. Degradation by cathepsin B was inhibited by lack of reducing agent, or by myoglobin, iodoacetic acid and leupeptin, but not by pepstatin. The same potential modifiers were applied to cathepsin D, and only pepstatin produced inhibition. 5. Rat liver cathepsin B had a pH optimum of 5.2 on native rabbit myosin. The pH optimum of cathepsin D was 4.0, with a shoulder of activity about 1pH unit above the optimum. 6. Rat liver cathepsins B and D were demonstrated to degrade rabbit F-actin at pH5.0, and were inhibited by leupeptin and pepstain, respectively. 7. The degradation of myosin and actin by cathepsin D was more extensive than that by cathepsin B.
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PMID:Degradation of myofibrillar proteins by cathepsins B and D. 2 66

A unique acid proteinase different from cathepsin D was purified from rat spleen by a method involving precipitation at pH 3.5, affinity chromatography on pepstatin-Sepharose 4B and concanavalin A-Sepharose 4B, chromatography on Sephadex G-100 and DEAE-Sephacel, and isoelectric focusing. A purification of 4200-fold over the homogenate was achieved and the yield was 11%. The purified enzyme appeared to be homogeneous on electrophoresis in polyacrylamide gels. The isoelectric point of the enzyme was determined to be 4.1-4.4. The enzyme hydrolyzed hemoglobin with a pH optimum of about 3.1. The molecular weight of the enzyme was estimated to be about 90000 by gel filtration on Sephadex G-100. In sodium dodecylsulfate polyacrylamide gel electrophoresis, the purified enzyme showed a single protein band corresponding to a molecular weight of about 45000. The hydrolysis of bovine hemoglobin by the enzyme was much higher than that of serum albumin. Various synthetic and natural inhibitors of the enzyme were tested. The enzyme was inhbited by Zn2+, Fe3+, Pb2+, cyanide, p-chloromercuribenzoate, iodoacetic acid and pepstatin, whereas 2-mercaptoethanol, phenylmethyl-sulfonyl fluoride and leupeptin showed no effect.
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PMID:Affinity purification and properties of cathepsin-E-like acid proteinase from rat spleen. 3 48

Isoelectric focusing was used to investigate the multiple forms of acid phosphatase, arylsulfatase, beta-glucuronidase, beta-galactosidase and beta-N-acetylhexosaminidase in the following, previously characterized subcellular fractions from rat kidney: a special rough microsomal fraction, enriched up to 9-fold over the homogenate in acid hydrolases; a smooth microsomal fraction; a Golgi membrane fraction enriched about 2.5-fold in acid hydrolases and 10- to 20-fold in several glycosyl transferases; and a lysosomal fraction enriched up to 25-fold in acid hydrolases. The electro-focusing behavior of the hydrolases in these fractions was markedly sensitive to the autolytic changes that occur under acidic conditions, even at 4 degrees C. Autolysis was minimized by extracting fractions in an alkaline medium (0.2% Triton X-100, 0.1 M sodium glycinate buffer, pH 10, 0.1 % p-nitrophenyloxamic acid) and adding p-nitrophenyloxamic acid (0.1 %), AN INHIBITOR OF LYSOSOMAL NEURAMINIDASE AND cathepsin D, to the pH gradient. The enzymes in the lysosomal fraction displayed a characteristic bimodal or trimodal distribution. Arylsulfatase, beta-glucuronidase and beta-N-acetylhexosaminidase occurred in an acidic form with an isoelectric point of 4.4, and a basic form with an isoelectric point of 6.2, 6.7 and 8.0, respectively. Acid phosphatase and beta-galactosidase occurred in an acidic, intermediate and basic form with isoelectric points of about 4. 1, 5.6 and 7.4, respectively. In the special rough microsomal fraction these enzymes were mostly in a basic form with isoelectric points between 7.5 and 9; these were 1-2 units higher than the corresponding basic forms in the lysosomal fraction. Treatment of extracts of the rough microsomal fraction with bacterial neuraminidase raised the isoelectric points of all five hydrolases by 1-2.5 units, indicating the presence of some N-acetylneuraminic acid residues in these basic glycoenzymes. The hydrolases in the Golgi fraction were largely in an acidic form with isoelectric points similar to or lower than those of the corresponding acidic components in the lysosomal fraction. The hydrolases in the smooth microsomal fraction showed isoelectric-focusing patterns intermediate between those in the rough microsomal and the Golgi fractions. These findings support the following scheme for the synthesis, transport and packaging of the lysosomal enzymes. Each hydrolase is synthesized in a restricted portion of the r
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PMID:Changes in electronegativity of lysosomal hydrolases during intracellular transport. An isoelectric-focusing study in subcellular fractions of rat kidney. 23 56

The subcellular distributions of acidic (pH 4.5) and neutral (pH 7.5) longchain triacylglycerol lipases (glycerol ester hydrolase, EC 3.1.1.3) of pig liver have been determined. The distribution of the acidic lipase closely paralleled that of the lysosomal marker enzyme, cathepsin D. Approx. 60% of the neutral lipolytic activity resided in the soluble fraction;the distribution of this activity failed to parallel that of marker enzymes for mitochondria, lysosomes, microsomes, or plasma membranes. A method has been developed for purification of the neutral lipase from the soluble fraction by ultracentrifugation. An approximate 90-fold purification was achieved, with recovery of 16% of the initial activity. The partially purified neutral lipase exhibited a pH optimum between 7.25 and 7.5. It required 30 mM emulsified triolein for optimal activity and ceased to liberate fatty acids after 30 min of incubation. The enzymatic activity was destroyed by heating at 60 degrees C. Neutral lipase was inhibited by sodium deoxycholate, Triton X-100 and iodoacetamide. The activity was not inhibited by sodium taurocholate, EDTA, heparin and diethyl-p-nitrophenyl phosphate. Neutral lipase failed to exhibit activity in assay systems specific for lipoprotein lipase, monoolein hydrolase, tributyrinase, and methyl butyrate esterase and showed little or no capacity to hydrolyze chyle chylomicrons or plasma very low density lipoproteins. It is suggested that the function of neutral lipase may be to supply the liver with fatty acids liberated from endogenously synthesized or stored triacylglycerols.
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PMID:Subcellular fractionation, partial purification and characterization of neutral triacylglycerol lipase from pig liver. 23 42

The effect of lysosomotropic agent--sodium aurothiomalate on liver damage and lysosomal changes during acute toxic hepatitis was studied. Combined administration of sodium aurothiomalete led to less extensive necrosis and to widening dystrophic areas in the hepatic parenchyma. Solubilization of the acid RNA-ase activity was decreased, and nonsedimentable activities of beta-galactosidase, cathepsin D were the same as in acute CCl4-hepatitis.
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PMID:[Effect of sodium aurothiomalate in acute toxic hepatitis]. 40 45

Two types of cathepsin D were purified from rat spleen by a rapid procedure involving an acid precipitation of tissue extract, affinity chromatography with pepstatin--Sepharose 4B and concanavalin-A--Sepharose 4B, and chromatography on Sephadex G-100 and DEAE-Sephacel. The purified major enzyme (85% of the cathepsin D activity after DEAE-Sephacel chromatography), termed cathepsin D-I, represented about a 1000-fold purification over the homogenate and about a 20% recovery. The purified minor enzyme (15%), termed cathepsin D-II, represented about a 900-fold purification and about a 3% recovery. Both enzymes showed four (pI: 4.2, 4.9, 6.1 and 6.5) and three (pI: 4.6, 5.6 and 5.8) multiple forms after isoelectric focusing, respectively. The purified enzymes appeared homogeneous on electrophoresis in polyacrylamide gel and had a molecular weight of about 44000. In sodium dodecylsulfate/polyacrylamide gel electrophoresis both enzymes showed a single protein band corresponding to a molecular weight of 44000. The enzymes had similar amino acid compositions except for serine, proline and methionine. Cathepsin D-I contained 6.6% carbohydrate, consisting of mannose, glucose, galactose, fucose and glucosamine in a ratio of 8:2:1:1:5 with a trace of sialic acid. The properties of purified enzymes were also compared.
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PMID:Cathepsin D of rat spleen. Affinity purification and properties of two types of cathepsin D. 44 74

Cathepsin D was purified from human liver by a procedure involving autolysis, acetone fractionation, and chromatography on ion-exchange media and organomercurial-sepharose. Multiple forms of the enzyme were then separated by preparative isoelectric focusing. The molecular weight of the protein was found to be 43,000. Its amino acid composition was determined and it was shown to be a glycoprotein. When treated with sodium dodecyl sulphate or chaotropic agents (without reduction) all forms of the enzyme tested gave components of about 28,000 and 14,000 molecular weight. Specific antisera were raised against the enzyme, and the characteristics of immunoinhibition were investigated. Immuno-inhibition of rabbit cathepsin D within living macrophages was shown to interfere with degradation of some proteins endocytosed by the cells. The antisera against human and rabbit cathepsin D were used in immunofluorescent localization of the enzyme in sites of tissue damage in which cathepsin D might be implicated. The characteristics of inhibition of human cathepsin D by pepstatin were established. At pH values below 5, KD values of 5 x 10(-10)M were determined and pepstatin was shown to be an excellent titrant for cathepsin D. In the range pH 5-6.4 DK increased steeply and it was concluded that the binding site for substrate and inhibitor was abolished by a conformational change in the enzyme molecule in which three protons are lost.
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PMID:Human cathepsin D. 59 2

Cathepsin D, an enzyme consistently found to be lysosomal in many cells, has an unusual localization in rat thoracic duct lymphocytes (TDL). After fractionation of homogenates of rat TDL, most of the enzyme activity, as measured at pH 3.6 on denatured bovine hemoglobin, is distributed differently from the other lysosomal enzymes. The enzyme also has some unique properties: it is not inhibited by an antiserum inhibitory for rat liver cathepsin D; it exists in two molecular weight forms (approximately 45,000 and approximately 95,000) both of which have a higher specific activity than rat liver cathepsin D, as determined by studies using the irreversible inhibitor, sodium pepstatin; the high molecular weight form converts to the low molecular weight form after treatment with beta-mercaptoethanol without any loss in activity. These enzymes appear to be restricted to rodent lymphoid tissues. Reasons for considering them to be a type of cathepsin D are given in the text.
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PMID:Unique biochemical and biological features of cathepsin D in rodent lymphoid tissues. 59 3

The effects of a six day starvation regimen on rats' hearts were studied by electron microscopy in combination with marker-enzyme assays of density-sedimentation (rho-S) zonal centrifugation fractions, and with Na+, K+ and Ca++ determinations of sera and heart homogenates. The evidence suggested that massive intracellular cardiac destruction occurred by two pathways. One pathway was seen by electron micrography in which proliferation of lysosomal populations was demonstrated. The finding was confirmed biochemically by increased activities of lysosomal acid hydrolases, particularly cathepsin D. The second pathway was deduced from biochemical and electrolytic data. It was believed to have been initiated by cellular K+ retention, which provided the acid milieu required for intracellular Ca++ retention. It is postulated that the resulting increase in Ca++ activated the loosely-bound membrane neutral (pH 7.4), and alkaline (pH 8.5) proteases, causing subcellular autolysis, particularly involving mitochondria, myofibrils and sarcoplasmic reticulum.
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PMID:Effects of starvation on vacuolar apparatus of cardiac muscle tissue determined by electron microscopy, marker-enzyme assays and electrolyte studies. 61 Oct

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