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

A sensitive and convenient method of endopeptidase assay using as substrate globin modified with pyridoxal-5-phosphate was used for determination of acid proteinases in bovine hypothalamus separated by isoelectric focusing. The soluble protein fraction of hypothalamus upon elution from Sephadex gave five peaks of proteinase activity at pH 3.2. The properties indicate that these peaks of endopeptidase activity are isoenzyme forms of cathepsin D.
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PMID:Hypothalamic cathepsin D: assay and isoenzyme composition. 4 10

Canine liver lysosomes were purified by sucrose discontinuous density gradient centrifugation and then ruptured by sonication to obtain the soluble fraction. This soluble lysosomal fraction, which contained a 25-fold increase in acid phosphatase activity per mg of total protein when compared with the original homogenate, was incubated with a subfraction (1.110 less than d less than 1.210 g/cm3, HDL3) of canine high density lipoproteins (HDL) at pH 3.8. HDL3 proteolysis by lysosomal proteases, measured as the release of peptides and amino acids by the ninhydrin reaction, followed hyperbolic curves with straight lines (r = 0.99) obtained on Lineweaver-Burk plots. Km calculated from the Lineweaver-Burk plot was 635 mug of HDL3 protein per 0.5 ml of incubation mixture. Optimum HDL3 proteolysis was observed from pH 3.8 to 4.5. Incubation with the other subcellular organelle fractions did not result in HDL3 proteolysis. To evaluate the effects of enzyme inhibitors, iodoacetate, p-chloromercuribenzoate (both specific for the endopeptidase, cathepsin B (EC 3.4.22.1)) and pepstatin (specific for the endopeptidase, cathepsin D (EC 3.4.23.5) were tested. Iodoacetate and p-chloromercuribenzoate inhibited HDL3 proteolysis 100% and bovine serum albumin proteolysis 65%. Pepstatin inhibited HDL3 proteolysis 45% and bovine serum albumin proteolysis 70%. The in vitro data presented support the hypothesis that hepatic lysosomes play an important role in HDL3 catabolism in the dog. Furthermore, results obtained from enzyme inhibition studies suggest that a specific lysosomal endopeptidase, cathepsin B, may play the key role in HDL3 proteolysis.
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PMID:Proteolysis of canine apolipoprotein by acid proteases in canine liver lysosomes. 17 45

Inactive human renin is found in amniotic fluid, plasma, and kidney and may be a renin precursor ("prorenin"). The mechanism of activation of inactive renin in vivo is not known. The present study examined the hypothesis that cathepsin D, a lysosomal pepsin-like endopeptidase may be capable of eliciting activation. Cathepsin D was incubated with inactive renin in human amniotic fluid at pH 4.8 and 22 C for 0-5 h. Marked activation occurred and the reaction displayed first order kinetics with respect to the concentration of cathepsin D. The initial velocity of conversion of inactive renin to active renin by cathepsin D was 0.007%/min/microgram cathepsin D. Under identical conditions, the initial velocity of conversion by pepsin was 0.18%/min/microgram pepsin. The 25-fold higher potency of pepsin compared with cathepsin D is in accordance with the recognized relative substrate affinities and catalytic efficiencies of the two enzymes. Inactive renin in human amniotic fluid seems to be similar to that found in human kidney and since cathepsin D is present in juxtaglomerular cells, this activation process may have physiological importance.
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PMID:Activation of human inactive ("pro-") renin by cathepsin D and pepsin. 37 40

Highly purified suspensions of parenchymal, endothelial and Kupffer cells were prepared from the rat liver. The respective roles of these cell classes in the degradation of proteins was investigated by analysing the cellular distribution of two lysomal proteases. The specific arginine naphthylamidase activity was 2 times higher in Kupffer cells compared with the nearly equal activities in endothelial and parenchymal cells. The specific activity of the important endopeptidase cathepsin D in endothelial and Kupffer cells was about 12 and 36 times higher, respectively, than the activity in parenchymal cells. These results are in agreement with an important role of Kupffer and endothelial cells in the degradation of proteins and protein containing material of exogenous origin.
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PMID:The role of lysosomal enzymes in protein degradation in different types of rat liver cells. 61 21

Isolated myelin of bovine spinal cord was found to degrade exogenous myelin basic protein (MBP) at pH 4.4. Electrophoretic peptide patterns were consistent with limited proteolysis of MBP. Some of the proteolytic activity was soluble at increased ionic strength, some remained bound, withstanding extraction at 37 degrees C for up to 12 hr. While being measurable with exogenous MBP, bound protease degraded neither bound MBP nor any other major intrinsic myelin protein. Both soluble and bound protease activity was completely inhibited by pepstatin A. The patterns of limited proteolysis of MBP they produced were identical. Myelin of cerebral white matter also exhibited soluble and bound acid protease activity which was likewise inhibited by pepstatin A. Protease activity of spinal cord and cerebral myelin is therefore suggested to be due to a cathepsin D-like endopeptidase, present in a loosely and tightly bound form. Both forms increased by 50 to 80% in activity when myelin was isolated from mixtures of white and cortical gray matter. While increased soluble activity of myelin is consistent with binding of cathepsin D of lysosomal origin during the isolation of myelin the tightly bound form might point to a principal mechanism through which exogenous proteins may become attached to the myelin sheath in vivo.
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PMID:Soluble and bound acid protease activity of myelin from bovine cerebral white matter and spinal cord. 245 76

Extracts of cell cultures labelled with [3H]leucine were incubated with human alpha 2-macroglobulin (alpha 2M), a plasma proteinase inhibitor. The proteinase-alpha 2M complexes were then precipitated with immobilized monoclonal antibodies to alpha 2M and analysed by SDS/polyacrylamide-gel electrophoresis. Parallel experiments were done with methylamine-inactivated alpha 2M to check for unspecific binding of cell proteins to alpha 2M. Several 3H-labelled cell proteins bound to active, but not to inactivated, alpha 2M. Such proteins are likely to be proteinases. Putative endopeptidases of subunit Mr 112000, 78,000, 53,000, and in some experiments 88,000 and 16,000, were trapped by alpha 2M in supernatant fractions from IMR90 human fibroblasts, EBTr bovine fibroblasts and HeLa human carcinoma cells. No additional proteins were trapped in the presence of ATP. The Mr-78,000 endopeptidase was identified as calpain II by immunoblotting. At pH 5.3 putative endopeptidases of subunit Mr 80,000, 53,000 and 28,000-32,000 were trapped from IMR90-fibroblast extracts. Immunoblotting showed that both cathepsin B and cathepsin D were present in the Mr-28,000-32,000 electrophoretic bands. The use of alpha 2M and immobilized antibody to alpha 2M thus allows a rapid enrichment of endopeptidases from cell extracts. Some potentials and limitations of the method are discussed.
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PMID:Alpha 2-macroglobulin used to isolate intracellular endopeptidases from mammalian cells in culture. 246 15

The aspartic endopeptidase cathepsin D was immunolocalized in 21 human cadaver brains from patients with dementia and controls. Immunoreactive cathepsin D was found to be present in multiple neurons, neuritic plaques, some macroglial cells, and microvessels. It is suggested that the enzyme might be involved in certain posttranslational changes of cystoskeletal compounds that lead to the formation and/or further growth of neuritic plaques and neurofibrillary tangles.
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PMID:Immunodetection of cathepsin D in neuritic plaques found in brains of patients with dementia of Alzheimer type. 255 33

The specificity of action of bovine brain cortex cathepsin D (EC 3.4.23.5) and high-Mr aspartic endopeptidase (EC 3.4.23.-) was studied with the vasoactive peptides renin substrate tetradecapeptide (RSTP), substance P (SP), and angiotensins I and II, and with model peptides--Lys-Pro-Ala-Glu-Phe-Phe (NO2)-Ala-Leu (I), Gly-Gly-His-Phe (NO2)-Phe-Ala-Leu-NH2 (II), and Abz-Ala-Ala-Phe-Phe-pNA (III). Cerebral aspartic peptidases show identical substrate specificity, cleaving the Leu10-Leu bond in RSTP and Phe-Phe in SP and peptide I-III, and not splitting angiotensins I and II. Because of the higher catalytic efficiency of cathepsin D (Kcat value), the specificity constants (Kcat/Km) for cathepsin D-catalyzed hydrolysis of substrates 1-111 are much higher than those for the high-Mr enzyme. High-Mr aspartic peptidase shares a number of properties with cathepsin D (sensitivity to pepstatin, substrate specificity, pH activity profile) and shows partial immunological identity; however, high-Mr aspartic peptidase has a specific activity 7-10 times lower than that of cathepsin D. The kinetic parameters of proteolysis of model peptides presented indicate that the high-Mr enzyme may be a complex of a single-chain cathepsin D with another polypeptide, although the possibility that it is an independent aspartic peptidase cannot be excluded.
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PMID:Substrate specificity of cerebral cathepsin D and high-Mr aspartic endopeptidase. 328 13

Beef lens cells in culture are readily obtained and provide many opportunities to study phenomena related to cell differentiation and maturation, environmental stress, disease, and perhaps mechanisms of transformation. Although altered rates of proteolysis are known to accompany these phenomena, the proteolytic activities available in cultured beef lens epithelial cells have not been documented. In this work are documented the specific activities, based on protein and DNA content, of neutral exo- and endopeptidase, cathepsins B- and D-like enzymes and acid phosphatase in lens epithelial cortical and core tissue and in cultured epithelial cells at passages 1-43. Maximal activity of each protease occurs almost routinely at passage 5 or 9, reaching values of approx. 1400-, 0.77-, 4520-nmol min-1 per mg protein for neutral exopeptidase (passage 5), neutral endopeptidase (passage 5) and cathepsin B (passage 5) respectively, and 7.1 micrograms trichloroacetic acid soluble peptide min-1 per mg protein for cathepsin D (passage 15). On a microgram-1 DNA basis, the maximal specific activities for the same enzymes were 48 (passage 5), 0.03 (passage 5), 283 (passage 9), and 0.5 (passage 9) respectively. In subsequent passages, the specific activities declined to values which were similar to or lower than the specific activities observed for these proteases in lens epithelial tissue.
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PMID:Protease activities in cultured beef lens epithelial cells peak and then decline upon progressive passage. 328 56

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