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 activity of cathepsin B and D in human liver biopsy specimens from cirrhotic patients before and after one year of colchicine treatment was studied. The hydroxyproline content as a marker of the amount of collagen in tissue specimens was also determined. The hydroxyproline content in the liver samples was two or threefold that of the control group. After colchicine it remained unchanged or in some patients its values were decreased. Cathepsin B activity was higher in cirrhotic liver samples as compared with the controls, whereas the increased activity of cathepsin D was not significant. The ratio of cathepsin B and D activity to hepatic hydroxyproline content was significantly reduced in cirrhotic livers. Colchicine treatment was followed by an increase in the levels of the enzymes investigated as well as by a significant rise in the ratio of cathepsin B and D activity to hepatic hydroxyproline content.
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PMID:Effect of colchicine on the activity of cathepsin B and D in human liver cirrhosis. 368 46

The action of three previously isolated electrophoretically homogeneous brain proteinases--cathepsin B (EC 3.4.22.1), cathepsin D (EC 3.4.23.5), and high-molecular-weight aspartic proteinase (Mr = 90K; EC 3.4.23.-)--on human angiotensins I and II has been investigated. The products of enzymatic hydrolysis have been identified by thin-layer chromatography on Silufol plates using authentic standards and by N-terminal amino acid residue analysis using a dansyl chloride method. Cathepsin D and high-molecular-weight aspartic proteinase did not split angiotensin I or angiotensin II. Cathepsin B hydrolyzed angiotensin I via a dipeptidyl carboxypeptidase mechanism removing His-Leu to form angiotensin II, and it degraded angiotensin II as an endopeptidase at the Val3-Tyr4 bond. Cathepsin B did not split off His-Leu from Z-Phe-His-Leu. Brain cathepsin B may have a role in the generation and degradation of angiotensin II in physiological conditions.
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PMID:Action of brain cathepsin B, cathepsin D, and high-molecular-weight aspartic proteinase on angiotensins I and II. 391 Oct 93

The specific activity of cardiac cathepsin B is significantly decreased by starvation and corticosteroid treatment in vivo, and by exposure of the heart in vitro to insulin, hydrocortisone and cycloheximide. Increases in cathepsin B activity occur following isoproterenol-induced cardiac damage in vivo and exposure in vitro to sucrose. Cathepsin B activity in heart is not changed during normal aging or in thyrotoxicosis. These responses are different from simultaneous changes in cardiac cathepsin D activity in several instances (starvation, corticosteroid treatment, aging and thyrotoxicosis). In the past, measurements of cathepsin D activity in heart have sometimes been considered to be representative of lysosomal proteinase activity in general and used as an index of cardiac lysosomal proteolytic capacity. The present results suggest that changes in cathepsin D do not necessarily reflect alterations in other lysosomal proteinases and may not serve as a valid indicator of overall lysosomal proteolytic capacity under all conditions.
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PMID:Changes in cardiac cathepsin B activity in response to interventions that alter heart size or protein metabolism: comparison with cathepsin D. 623 80

The activities per microgram DNA of five lysosomal enzymes [cathepsin D, cathepsin B, beta-N-acetylglucosaminidase (beta-NAG), beta-glucuronidase, and acid phosphatase] were measured in homogenates of female and male rat (Sprague-Dawley) hearts. Female rats were studied during stages of the estrous cycle and at 3 weeks after ovariectomy. Three-week-postovariectomized female rats and intact male rats were injected subcutaneously with 17 beta-estradiol-3-benzoate. Lysosomal enzyme activities in the male rat heart were more responsive to exogenous estradiol than were activities in the female rat heart. Cathepsin B, beta-NAG, and beta-glucuronidase were increased dramatically in the male rat heart upon short-term administration of estrogen (4 days). In both female and male rat hearts, activities of two lysosomal proteinases, cathepsins B and D, were reduced significantly (approximately 50%) by extended administration of estrogen for 10 days.
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PMID:Effect of estrogen on lysosomal enzyme activities in rat heart. 651 19

Two cathepsins were detected in Mujil auratus muscle extracts. They were classified as a thiol- and aspartyl-proteinase (cathepsins B and D, respectively) on the basis of their catalytic behaviour in presence of specific inhibitors. Following extraction in 1% KCl, the proteinases were purified by autolysis, acetone fractionation, affinity chromatography, and gel permeation chromatography. The haemoglobin-agarose column chromatography allowed us to separate the two activities. Sephadex G-75 column chromatography resulted in apparent molecular weights of 25,000 (cathepsin B) and 35,000 (cathepsin D). The molecular size, together with pH-activity profiles and kinetic parameters are similar to those reported for mammalian cathepsins B and D. This was not the case with the temperature-activity profiles, the optimum temperature as well as the heat stability being higher for fish cathepsins than for those obtained from other sources. Cathepsin B was characterized by its ability to inactivate aldolase. Fluorescence quenching experiments showed that tryptophyl residues of cathepsin B were less occluded and located in a more electronegative microenvironment that those pertaining to cathepsin D.
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PMID:Acid proteinase activity in fish II. Purification and characterization of cathepsins B and D from Mujil auratus muscle. 674 26

Using immunohistochemical or histochemical techniques lysosomal proteases have been localized in muscle cells. These include two exopeptidases (dipeptidyl peptidase I and II) and three endopeptidases (cathepsins B, D, and H). In general, the enzymes varied in apparent activities with the soleus muscle always more reactive than the extensor digitorum longus (EDL) of the rat. Cathepsin B and dipeptidyl peptidase I were localized primarily in subsarcolemmal regions whereas cathepsin H and dipeptidyl peptidase II were scattered throughout the sarcoplasm consistent with other observation of two populations of muscle lysosomes. However, cathepsin D could not be localized in either type of lysosome by similar histochemical techniques. Using immunohistochemical techniques, the protease inhibitors alpha 1-antitrypsin and alpha 1-inhibitor3 were recognized in intracellular compartments within muscle cells. alpha 1-antitrypsin appeared scattered throughout the cytoplasm while alpha 1-inhibitor3 was localized in discrete subsarcolemmal regions. Both inhibitor content and protease activity were diminished in skeletal muscles following streptozotocin-induced diabetes.
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PMID:Identification and possible regulation of muscle cell lysosomal protease activity by exogenous protease inhibitors. 704 96

Abnormalities in extracellular matrix degradation may play a pathogenetic role in diabetic nephropathy. Cultured renal mesangial cells are known to synthesize increased amounts of matrix proteins when incubated in high glucose media (e.g., 30 mmol/l). However, the effect of glucose loading on degradative enzymes is unknown. Primary cultures of rat mesangial cells were grown until confluent in the presence of fetal calf serum (FCS) and insulin (0.67 U/ml). Cells were then cultured for 7 days in plastic wells in either 10 or 30 mmol/l glucose media containing neither FCS nor insulin. Collagenase activity in media were determined by zymography and quantitative spectrofluorometry. Cathepsin B and D activities in cell extracts were measured by spectrofluorometry (using the fluorescent substrate Z-Arg-Arg-7-amido-4-methylcoumarin) and 125I-labeled hemoglobin digestion, respectively. Gelatin-degrading activity of live mesangial cells was also determined. mRNA levels for collagenase IV, cathepsin B, and cathepsin D were determined by Northern analysis. A major band of collagenase activity with a molecular size of 72 kDa was observed in all mesangial cell media. Exposure of cells to high glucose media resulted in significant reductions in collagenase and cathepsin B activities as well as impairment in gelatin-degrading activity. Collagenase IV and cathepsin B and D mRNA levels were also decreased by glucose loading. To exclude the possibility that glucose loading was injurious to cells, 3H-leucine uptake (as a measure of protein synthesis) and membrane alkaline phosphatase activity (as a biochemical marker of viability) were not affected by the high glucose condition.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Decreased degradative enzymes in mesangial cells cultured in high glucose media. 762 99

In the metastatic process, proteolytic enzymes play an important role in mediating passage of the malignant cell through the cell membrane. The cathepsins are ubiquitous lysosomal proteases and are classified both functionally and according to their active site. Cathepsin D, cathepsin B and to a lesser extent other cathepsins have been described as prognostic markers in cancer. Measurements of cathepsin D in breast tissue may be significant in predicting recurrence as well as disease free and overall survival. Reported differences concerning the role of cathepsin D as a prognostic marker may be related in part to the methodology used and the employment in the assays of antibodies prepared to different portions of the molecule. The general consensus is that elevated concentrations of cathepsin D in breast cancer tissue are highly significant indicators of the potential for recurrence. Cathepsin B, which catalyzes the degradation of laminin, may play a role in the rupture of the basement membrane and may be of importance in pancreatic and colorectal cancer.
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PMID:Tissue cathepsins as tumor markers. 766 80

Cathepsins are specific proteases in lysosomes that participate in the degradation of proteins, some of which are derived from endocytosis. In this study we examined the immunocytochemical localization of cathepsin B and D antibodies in cells of rat testis and epididymis, using light and electron microscopic immunocytochemistry. In testis, cathepsin D was immunolocalized over lysosomes of Sertoli cells and Leydig cells and on the acrosome of spermatids. Cathepsin B was found over lysosomes of macrophages. Non-ciliated cells of the efferent ducts revealed intense immunogold labeling over lysosomes with both anti-cathepsin B and D antibodies. In epididymis, cathepsins B and D showed marked variations in expression over the different epithelial cells and regional differences for a given cell type. Anti-cathepsin D antibodies showed intense labeling over lysosomes of principal cells in the corpus and proximal cauda. In contrast, anti-cathepsin B antibodies revealed intensely labeled lysosomes of principal cells of the distal initial segment, intermediate zone, and caput epididymidis, with weaker labeling in other regions. Clear cells of the proximal caput epididymidis revealed intensely labeled lysosomes for anti-cathepsin D antibodies. In the distal caput, clear cells showed a variable reaction pattern from intensely labeled to unreactive. Basal cells of teh intermediate zone and proximal caput region were intensely reactive for anti-cathepsin D antibodies. There was no staining over clear or basal cells with anti-cathepsin B antibodies. Taken together, these results demonstrate cell-specific and regional differences in the distribution of cathepsins B and D in cells of the male reproductive system. Such results suggest substrate specificity with regard to protein turnover within lysosomes of cells of testis and epididymis.
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PMID:Differential expression of cathepsins B and D in testis and epididymis of adult rats. 773 May 93

We examined the effects of a synthetic glucocorticoid (dexamethasone; Dex) on protoeolysis and on protease messenger RNA (mRNA) concentrations in rat L8 skeletal myotube cultures. Protein degradation was measured as release of radioactive trichloroacetic acid-soluble material from intracellular proteins pre-labelled with [3H]tyrosine. Dex (1 microM) stimulated protein degradation (P < 0.01). This effect was entirely blocked by the glucocorticoid antagonist, RU38486 (mifepristone; P < 0.01). Hence, actions of Dex on muscle protein degradation are mediated via intracellular glucocorticoid receptors. Molecular mechanisms by which glucocorticoids stimulate protein degradation in skeletal muscle are not known. Here, we investigated the regulation of protease (cathepsin B, cathepsin D, proteasome C2 subunit and m-calpain) mRNA concentrations by Dex in cultured L8 muscle cells. Cathepsin B mRNA concentration was enhanced 3.3-fold by Dex. This effect was blocked by RU38486. RU38486 alone did not affect cathepsin B mRNA concentration or mRNAs of other proteases. Concentrations of cathepsin D and m-calpain mRNAs were also increased by Dex. These effects were also abolished by RU38486. Proteasome C2 mRNA was unaffected by Dex and Dex reduced alpha-tubulin mRNA. Thus, glucocorticoids specifically regulate the concentrations of mRNAs encoding some proteases in muscle cells. The regulation of protease mRNA concentration is mediated via interaction between Dex with glucocorticoid receptors and is independent of the actions of Dex on mRNA encoding house-keeping proteins. These changes may underlie glucocorticoid-dependent control of proteolysis in muscle.
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PMID:Effects of dexamethasone on protein degradation and protease gene expression in rat L8 myotube cultures. 775 36

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