Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The in vivo effect of an herbal based, non-steroidal anti-inflammatory product, salai guggal, prepared from the gum resin exudate of Boswellia serrata and its active principle "boswellic acids" on glycosaminoglycan metabolism has been studied in male albino rats. The biosynthesis of sulfated glycosaminoglycans, as evaluated by the uptake of [35S]sulfate, and the content of glycosaminoglycans were measured in specimens of skin, liver, kidney and spleen. Statistical analysis of the data obtained with respect to the boswellic acids and salai guggal were compared with those of ketoprofen. A significant reduction in glycosaminoglycan biosynthesis was observed in rats treated with all of the drugs. Glycosaminoglycan content was found to be decreased in the ketoprofen-treated group, whereas that of the boswellic acids or salai guggal treated groups remained unaltered. The catabolism of glycosaminoglycans was followed by estimating the activities of lysosomal glycohydrolases, namely beta-glucuronidase, beta-N-acetylglucosaminidase, cathepsin B1, cathepsin B2 and cathepsin D, in tissues and by estimating the urinary excretion and hexosamine and uronic acid. The degradation of glycosaminoglycans was found to be reduced markedly in all drug-treated animals as compared to controls. The potential significance of boswellic acids and salai guggal was discussed in the light of changes in the metabolism of glycosaminoglycans.
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PMID:Studies on the metabolism of glycosaminoglycans under the influence of new herbal anti-inflammatory agents. 281 45

The subcellular localization of rat neutrophil cathepsin E was examined by a modification of the method of N. Borregaard et al. [(1983) J. Cell Biol. 97, 52-61]. When the postnuclear cavitate of rat neutrophils was subjected to density centrifugation on discontinuous Percoll gradients, three particulate bands, P1 (lowest; azurophil granule rich), P2 (middle; specific granule rich), and P3 (highest; plasma membrane rich), were segregated. A combined application of immunochemical and electrophoretic methods revealed a striking difference in subcellular localization between cathepsin E and cathepsin D: Cathepsin E was associated with P3 and soluble fractions, and cathepsin D was chiefly associated with P1 and P2 fractions. The results thus indicate that cathepsin E is a nonlysosomal acid proteinase in rat neutrophils. It was found that cathepsin E existed in two enzymatically active molecular forms, referred to as CE-I and CE-II, in rat neutrophil extracts. To examine the relationships between the two forms, cathepsin E was purified to homogeneity from rat gastric mucosae. The purified enzyme exhibited a single protein band of 43 kDa on sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis, but electrophoresis without SDS, followed by visualization of activity in the gel, revealed two activity bands corresponding to CE-II and CE-I in neutrophil extracts. Pretreatment of the enzyme with beta-mercaptoethanol or dithiothreitol resulted in an increase in CE-I activity with a concomitant decrease in CE-II activity on gels. Upon gel filtration, the molecular weights of CE-II and CE-I were estimated to be 98,000 and 51,000, respectively, strongly suggesting that they are the dimeric and monomeric forms of the cathepsin E subunit.
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PMID:Further studies on rat cathepsin E: subcellular localization and existence of the active subunit form. 305 36

The plasma levels of the opsonic glycoprotein fibronectin are decreased in patients with fulminant hepatic failure, which may be an important factor in their impaired host-defense. Twenty-nine patients in fulminant hepatic failure were studied on admission, and the mean fibronectin level in Grade 0-2 encephalopathy was 82 micrograms per ml (range = 0 to 150) and in Grade 3-4 encephalopathy 61 micrograms per ml (range = 5 to 158) as compared to normal controls (268 micrograms per ml, range = 178 to 380, n = 62). No fibronectin degradation products could be detected in fulminant hepatic failure plasma by sodium dodecyl sulfate-gel electrophoresis on a polyacrylamide gradient (5 to 15%) followed by immunoblotting onto nitrocellulose with detection using a rabbit antihuman fibronectin antiserum visualized with a peroxidase conjugate. The plasma levels of the marker proteolytic enzyme cathepsin D were significantly elevated in fulminant hepatic failure (120 +/- 31 mU per ml per hr) as compared to the normal controls (18 +/- 2.1 mU per ml per hr, n = 10, p less than 0.01). Cross-immunoelectrophoresis of fulminant hepatic failure plasma for fibronectin on agarose plates gave an additional slower migrating peak in 15 of the 29 patients, as well as that of fibronectin, which corresponded to the fibronectin complex reported by other workers in leukemia. An intermediate gel containing antihuman fibrinogen demonstrated fibrinogen to be one component of this complex. Binding of other substances to fibronectin will reduce its apparent biological activity and may be the result of their lack of clearance by the damaged liver.
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PMID:Characterization of the molecular forms of fibronectin in fulminant hepatic failure. 309 66

1. An acid aspartic proteinase in the regressing tadpole tail was purified about 800-fold with a 36% recovery. 2. The mol. wt of the enzyme was found to be 42,000 on gel filtration and 38,000 on sodium dodecyl sulfate polyacrylamide gel electrophoresis, respectively. 3. The purified enzyme had a maximum activity at pH 3.5 and an apparent Km of 0.084% with acid-denatured hemoglobin as substrate. 4. The enzyme activity was strongly inhibited by pepstatin. In addition, diazoacetylnorleucine methyl ester inactivated the enzyme in the presence of cupric ions. 5. The enzyme was identified as a cathepsin D (EC. 3.4.23.5)-like proteinase.
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PMID:Purification and characterization of cathepsin D-like proteinase from the tadpole tail of bullfrog, Rana catesbeiana. 325 2

In microtubules isolated from brains of very old rats, two of the major microtubule-associated proteins, MAP1 and MAP2, are found only in degraded form. MAP1 is present as a piece whose molecular weight on sodium dodecyl sulfate-polyacrylamide gel electrophoresis is circa 50,000 smaller than the native protein, and MAP2 is extensively fragmented. The native forms of both proteins are present in tissue homogenates but are rapidly degraded during microtubule isolation. The proteolytic activity responsible for this degradation is cathepsin D like, being more active at acid pH than neutral and being completely blocked by pepstatin at 10(-7) M. Fractionation of aged brain supernatant by gel permeation chromatography showed that the MAP1 and MAP2 degrading activity elutes with a single peak of cathepsin D like activity. MAP1 and MAP2 are known to promote microtubule assembly, and their degradation by a protease whose levels increase with age could be related to defective microtubule assembly which is known to occur in age-related degenerative conditions such as Alzheimer's disease.
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PMID:Age-related increase in a cathepsin D like protease that degrades brain microtubule-associated proteins. 332 17

Human gastric mucosa contains three immunochemically distinguishable aspartic proteinases, pepsinogen I (pepsinogen A), pepsinogen II (pepsinogen C, progastricsin), and a nonpepsinogen proteinase also termed slow moving proteinase (SMP). The properties of SMP, and in particular its relationship to another aspartic proteinase, cathepsin D, were examined in this study. Slow moving proteinase and cathepsin D were isolated, respectively, from gastric mucosa and human spleen. Antiserum specific to each proteinase was prepared in rabbits. Rabbit anti-SMP did not recognize cathepsin D, and conversely, anticathepsin D did not react with SMP. Immunohistochemical studies localized SMP to surface epithelial cells in both the fundic and pyloric gland areas of the stomach. In contrast, cathepsin D was found mainly in mononuclear cells in the lamina propria and in parietal cells. Slow moving proteinase exhibited considerably lower Km values for its interaction with two chromogenic substrates than did cathepsin D. An even greater distinction between the two enzymes was found with the protein inhibitor from Ascaris lumbricoides; the activity of SMP was inhibited very strongly, whereas that of cathepsin D was not affected. By sodium dodecyl sulfate-polyacrylamide gel electrophoresis under denaturing conditions, SMP consisted of two subunits with apparent molecular weights of 42,500 and 41,000. The last two properties characterize a less-well-known aspartic proteinase, cathepsin E. We conclude that SMP is not cathepsin D, but that it may be cathepsin E.
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PMID:Slow moving proteinase. Isolation, characterization, and immunohistochemical localization in gastric mucosa. 355 6

A preparation of cathepsin D was isolated with a 20% yield from the Pacific herring muscles using thermal and acid-alkaline treatment as well as salting out with ammonium sulfate and gel chromatography on Sephadex G-75. Cathepsin D isolated from the Pacific sardine muscles was purified 200-400-fold by means of affinity chromatography on immobilized hemoglobin, the yield being about 5%.
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PMID:[Isolation of cathepsin D from fish muscle tissue]. 365 27

Androgen-dependent regulation of cathepsin D activity was studied in rat seminal follicles. Cathepsin D, isolated from the follicles by means of ammonium sulfate fractionation, chromatography on Hb-Sepharose and Sephadex G-200, was similar to the enzyme from other tissues in molecular mass, Km for hemoglobin, pH optimum of activity, thermolability. Concentration of androgens in tissues affected the properties of purified cathepsin D: the enzyme activity, its sensitivity to thermoinactivation and to chymotryptic hydrolysis were increased as well as the pH optimum was expanded after orchidectomy. Testosterone restored the initial enzyme properties altered after castration.
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PMID:[Hormonal aspects of cathepsin D regulation in seminal follicles]. 368 88

Rabbit cardiac cathepsin D is synthesized as a 53,000-mol wt precursor that undergoes limited proteolysis at an unknown intracellular site to a 48,000-mol wt active form. To examine the site of proteolytic processing, isolated perfused rabbit hearts were fractionated by differential centrifugation 150 or 300 min after pulse labeling with [35S]methionine. Newly synthesized precursor and processed cathepsin D were quantitatively isolated from each fraction by extraction, immunoadsorption, and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. After 30-min pulse perfusions, all of the 35S-labeled cathepsin D was present as precursor, with the greatest amounts found in low-density subcellular fractions. Proteolytic processing of cathepsin D precursor occurred after chase perfusions that were coincident with the subcellular redistribution of newly synthesized enzyme from sites of synthesis to heavier subcellular structures. Pulse-chase perfusions with chloroquine (10 microM) inhibited precursor proteolytic processing and the time-dependent subcellular redistribution of newly synthesized cathepsin D. The data are consistent with a model for cardiac lysosomal enzyme maturation in which limited proteolytic processing occurs coincident with or soon after the transport of precursors to an acidic intracellular compartment. The results thus suggest that cathepsin D proteolytic processing occurs within cardiac lysosomes.
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PMID:Transport and proteolytic processing of rabbit cardiac cathepsin D. 388 Oct 41

Identification of inactive prorenin in the kidney has been difficult due to rapid proteolytic conversion of the inactive zymogen to its active form in the tissue or during homogenization and purification. Immunochemical methods, Western blotting, direct radioimmunoassay, and immunoaffinity chromatography were used to isolate and identify rat kidney renin and prorenin and to determine their molecular weights without complete purification. Antisera to pure rat renin were raised in rabbits. A specific reaction between the antisera and rat renin was demonstrated by double immunodiffusion, inhibition of enzyme activity, and competitive radioimmunoassay. The anti-rat renin IgG did not cross-react with purified human renin or rat spleen or kidney cathepsin D. The IgG showed binding affinity to both inactive renin as well as active enzyme. A combination of affinity chromatographies consisting of pepstatin-Sepharose, IgG-Sepharose, and Affi-Gel Blue permitted rapid and complete separation of inactive renin from active renin in rat kidney extract. Neither inactive nor active renin preparations exhibited aspartyl protease activity on hemoglobin used as substrate. The apparent molecular weight of inactive renin was estimated as 50,000 by gel filtration. Electrophoresis of partially purified inactive renin in sodium dodecyl sulfate (SDS) polyacrylamide gel followed by transblotting of proteins to a nitrocellulose sheet and immunochemical staining with anti-renin IgG showed a single protein band with a molecular weight of 48,000. Activation of inactive renin by trypsin was accompanied by the reduction of the 48,000-dalton native protein to a 39,000-dalton protein as determined by the SDS polyacrylamide gel electrophoresis and the transblotting.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Application of immunochemical methods to the identification and characterization of rat kidney inactive renin. 388 4


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