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)

A neutral proteinase secreted by rabbit synovial fibroblasts in parallel with specific collagenase was partially purified by ion-exchange chromatography. At pH 7.6 this proteinase degraded 35S-labelled bovine nasal proteoglycan and azo-casein. The enzymic activity was inhibited by EDTA, 1,10-phenanthroline and serum, whereas di-isopropyl phosphorofluoridate and soya-bean trypsin inhibitor had little effect. By gel filtration the apparent mol.wt. of the enzyme was 25000. The fibroblast neutral proteinase was compared with the proteoglycan-degrading neutral proteinases of rabbit polymorphonuclear-leucocyte granules. Two distinct activities were found in the granules: one was inhibited by soya-bean trypsin inhibitor and the other by EDTA. The proteoglycan-degrading proteinases of rabbit fibroblasts and polymorphonuclear leucocytes at acid pH also were examined. Both cathepsin D and a thiol-dependent proteinase contributed to the degradation of proteoglycan at pH 4.5.
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PMID:Proteoglycan-degrading enzymes of rabbit fibroblasts and granulocytes. 3 Apr 51

Connective tissue cells are capable of both synthesizing and degrading the macromolecular components of the extracellular matrix. The degradation of proteoglycan and collagen has been shown to be associated with the extracellular release of proteolytic enzymes, some of which are of lysosomal origin. The identity in carilage of two previously unrecognized proteases, capable of proteoglycan breakdown (CPGases), has recently been achieved by the use of a new assay for proteoglycan degradation. These enzymes have been shown to be synthesized and released in response to vitamin A. The third proteoglycan degrading enzyme of connective tissue cells, cathepsin D, has been located in the pericellular environment by trapping with specific antibody and the pattern of release studied in organ culture, experimental arthritis and in human rheumatoid tissues. The secretion of this enzyme and possibly also of the other CPGases is thought to be of importance in the local (pericellular) turnover of matrix macromolecules and, in association with collagenase, to be the cause of the excessive degradation in the pannus erosion of articular cartilage in rheumatoid arthritis.
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PMID:The secretion of enzymes into the pericellular environment. 23 25

A possible mechanism for tumor cell invasion of normal tissue might be secretion of proteolytic enzymes. This study compares and contrasts production and secretion of proteinases by cell cultures of normal and chemically transformed mouse epithelial cells. Lysates of normal and neoplastic cells contain similar amounts of neutral proteinase, cathepsin D and plasminogen activator. Neither collagenase nor elastase could be identified in lysates of, or serum-free culture medium bathing, normal or neoplastic cells. Neoplastic cells secrete ten times more plasminogen activator than normal cells. Our data support the hypothesis that plasminogen activator produced by neoplastic cells could fuction to activate latent proteolytic enzymes secreted by connective tissue cells which might result in spread of neoplastic cells into normal tissue.
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PMID:Production and secretion of proteolytic enzymes by normal and neoplastic cells. 45 22

In continuation of previous studies, which showed a catabolic defect in proteoglycan metabolism, enzymes which degrade the proteoglycan macromolecules, e.g. proteinases (cathepsin D, elastase, and cathepsin G) and glycoisidases (arabinosidase and xylosidase) have been assayed in leucocytes of DMC patients. The regulator of lysosomal proteinases, cyclic AMP and serum antiproteinases, e.g. alpha1-AT and alpha2-M, have also been assayed. The proteinases assayed were normal in DMC patients. Arabinosidase activity in leucocytes of the patients was found to be decreased three fold, while xylosidase activity was increased three fold. A four-fold increased concentration of cyclic AMP in leucocytes of the patients and an increased serum concentration of alpha2-M associated with its abnormal pattern in crossed immunoelectrophoresis have been found. The abnormality in serum alpha2-M of DMC patients may be explained by a complex formation of alpha2-M with collagenase released from the lysosomes. Finally, an abnormal peptidoglycan has been demonstrated in DMC urine.
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PMID:Biochemical abnormalities in Dyggve-Melchior-Clausen syndrome. 63 1

The effects of the lysosomal proteinase cathepsin D on the mechanical properties of adult human articular cartilage were examined in detail in 7 joints within the age range 21 to 72 years. The results of a preliminary study on the effects of the lysosomal proteinase cathepsin B1 and clostridial collagenase on the mechanical properties of cartilage are also presented. Cartilage which had been incubated with either cathepsin D or cathepsin B1 showed increased deformation in uniaxial compression perpendicular to the articular surface. The enzyme-treated cartilage also showed decreased tensile stiffness at low values of stress. This effect was more pronounced in specimens from the deeper zone of cartilage than in specimens from the superficial zone. It was also more pronounced in specimens which were aligned perpendicular to the predominant alignment of the collagen fibres in the superficial zone than in specimens which were parallel to the collagen fibres. At higher stresses the tensile stiffness of the treated cartilage was not significantly different from that of the untreated tissue. The tensile fracture stress of the cartilage was also not significantly reduced by the action of cathepsin D. In contrast to the effects observed with the cathepsins, the preliminary results obtained by incubating cartilage for 24 h with clostridial collagenase showed that both the tensile stiffness and the fracture stress were considerably lower than the corresponding values for the untreated tissue. Biochemical analysis of the incubation media, and the specimens, revealed that a large proportion of the proteoglycans was released from the cartilage by each of the three enzymes. The proportion of the total collagen which was released from the cartilage was different for each enzyme: cathepsin D released between 0 and 1.5 per cent, cathepsin B1 released between 2.3 and 4.3 per cent and collagenase released between 5.3 and 27.8 per cent of the collagen after 24 h.
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PMID:The effects of proteolytic enzymes on the mechanical properties of adult human articular cartilage. 127 79

Fibronectin fragments generated by Achromobacter iophagus collagenase exhibit a gelatinolytic activity. This activity is inhibited by phenyl-methyl-sulfonyl fluoride and pepstatin A. After separation of this collagenase digest of fibronectin on heparin Ultrogel, a laminase activity was also evidenced using laminin and the synthetic peptide Gly-Pro-Ala-Gly-Pro-Arg as substrates. Different results were obtained with a cathepsin D digest of fibronectin that exhibited gelatinolytic and laminolytic activities only after incubation with Ca++. This suggests that the proteinases produced by hydrolysis of fibronectin enhance the effect of collagenase on extracellular matrix proteins.
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PMID:[Role of a collagenase in the latent proteolytic activity of fibronectin]. 196 17

Fibronectin contains two latent gelatinolytic enzymes, FN-gelatinase and FN-laminase that can be activated in the presence of Ca2+ from the purified cathepsin D-produced 190-kDa fibronectin fragment. The results of this work show that Achromobacter collagenase cleaves fibronectin and generates an active FN-gelatinase. In contrast to the cathepsin D digest, the collagenase digest directly exhibits gelatinolytic activity without additional activation. The gelatinolytic activity of the total collagenase digest can be inhibited by phenylmethanesulfonyl fluoride, a serine proteinase inhibitor and by pepstatin A, an aspartic-acid proteinase inhibitor. FN-laminase activity, when assayed with its synthetic substrate GPAGPR and also with laminin was revealed after separation of the collagenase digest of fibronectin on heparin Ultrogel. FN-gelatinase and FN-laminase activities were found in heparin unretained and heparin strongly retained fractions. These results have demonstrated that in contrast to cathepsin D, Achromobacter collagenase activates two matrix-degrading proteinases from fibronectin, FN-Gelatinase und FN-Laminase.
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PMID:Collagenase activation of latent matrix-degrading proteinases from human plasma fibronectin. 215 10

Obstructive lymphedema is a pathologic condition resulting in the accumulation and stagnation of serum proteins in the lymphatics and interstitial spaces. In a canine model of obstructive lymphedema, one limb was rendered lymphedematous, and various biochemical parameters were determined in this and an unaffected control limb. Both lymph and interstitial fluid had significantly decreased acid proteinase activity (comprising mostly cathepsin D-like enzymes) and neutral proteinase activity (comprising metallo, sulfhydryl, and serine proteinases, and collagenase). Possible reasons for these decreases could be: (1) saturation of macrophages and their surrounding environment with whole or partially digested proteins, or (2) elevation in the levels of circulating inhibitors like alpha 2-macroglobulin. The lymphedematous skin was significantly thicker than control skin and had elevated levels of collagen. However, unlike some fibrotic conditions, the relative proportions of types I, III, and V collagen, as determined by pepsin solubilization and neutral salt fractionation of the collagen fibrils, were similar to those found in normal skin. It is speculated that a decrease in the breakdown of collagen by collagenase and a continuing synthesis of collagen by fibroblasts led to an imbalance in favor of collagen deposition in the skin.
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PMID:Protein metabolism and fibrosis in experimental canine obstructive lymphedema. 244 62

Isolated perfused liver and cultures of rat hepatocytes were assessed for the quantitative evaluation of hepatotoxicity. Release of de novo biosynthesized plasma proteins and acid hydrolases into perfusion or culture media was taken as an indication of the integrity of hepatocytes in both systems. The activities of six acid hydrolases, alpha-L-fucosidase, alpha-D-galactosidase, beta-D-galactosidase, beta-D-N-acetylgalactosaminidase, beta-D-N-acetylglucosaminidase, and cathepsin D, were assayed in collagenase-segregated hepatocytes and in monolayer cultures of rat liver cells obtained via collagenase perfusion of rat liver. In situ, liver perfusion with collagenase led to a loss of 45 +/- 5% of the total acid hydrolase activity in the mitochondrial-lysosomal pellet of the liver cells with concomitant increase of these enzymes in the cytosol. In monolayer cultures over a period of 30 h, increased activity of cathepsin D, beta-D-galactosidase, and beta-D-N-acetylglucosaminidase in the mitochondrial-lysosomal pellet and the cytosol fraction was evident with concurrent biosynthesis of plasma proteins. The use of radioactive tracing techniques with the isolated perfused liver revealed that the rate of catabolism of intracellular protein was approximately 5 times that of plasma protein synthesis. Both methods described here are suitable for the study of the effects of toxins on the function of hepatocytes.
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PMID:Study of hepatotoxicity in isolated perfused liver versus cultures of rat hepatocytes. 291 36

In an attempt to clarify the roles of proteases in the developmental mechanisms of hypertensive vascular lesions, changes in activities of aortic elastase, collagenase, and cathepsin D in spontaneously hypertensive rats (SHR) and renal hypertensive rats were biochemically investigated. In SHR, elastase activity initially showed a significant increase, once two-fold higher than that in the control; but the activity tended to decrease earlier than that in the control. In both SHR and normotensive control rats collagenase activities tended to increase with advancing age. The activity in SHR was two-fold higher than that in the control at all ages examined. In both younger SHR and normotensive rats cathepsin D activities proved to be increased with advancing age, while in old rats the activities tended to decrease. The activity in SHR was three- to fivefold higher than that in the control at all ages examined. In renal hypertensive rats, the activities of elastase, collagenase, and cathepsin D increased gradually with increasing blood pressure, at levels significantly higher than those in the control. These findings suggest that the metabolisms of proteins such as elastin and collagen, expressed by these enzyme activities, are accelerated under hypertensive conditions.
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PMID:Elastase, collagenase, and cathepsin D activities in the aortas of spontaneously hypertensive and renal hypertensive rats. 300 14

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