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)

Cathepsin D was purified about 1000-fold from human brain cortex by a procedure involving ammonium sulfate fractionation (30-70%), Sephadex G-75 chromatography, affinity chromatography on pepstatin-Sepharose and isoelectric focusing. The enzyme was assayed fluorometrically at pH 3.2, the substrates used were globin or haemoglobin modified with pyridoxal-5'-phosphate. 6 multiple forms of cathepsin D were resolved in the isoelectric focusing step with pI values 4.4, 4.8, 5.3, 6.2, 6.5 and 6.8. Km of pyridoxal-globin and pyridoxal-haemoglobin for all 6 multiple forms is 1.8-2.0 X 10(-5) M and 1.3 to 4 X 10(-6) M, respectively, and Ki of pepstatin is 2-4 X 10(-9) M. Gel filtration of the multiple forms on Sephadex G-100 column showed that each has a molecular weight of about 50 000. Human brain cathepsin D has a pH optimum of 3.2 with a smaller second optimum at pH 4.0 (pyridoxal-haemoglobin being used as substrate). All the multiple forms have the same pH-dependence curve. On SDS-polyacrylamide gel electrophoresis the purified enzyme produced 3 bands approximately corresponding to Mr 50 000, 35 000 and 15 000. Study of the breakdown of substance P and its C-terminal heptapeptide by cathepsin D shows that cleavage occurs at the Phe-Phe linkages of both substrates tested.
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PMID:Cathepsin D from human brain: purification and multiple forms. 667 69

Cadmium metallothionein (CdMT) nephrotoxicity was studied in rats injected i.p. with a single nonlethal dose of CdMT (0.6 mg of Cd per kg). Within 8 hr of CdMT injection, urine volume and urine sodium excretion were increased and sodium dodecyl sulfate gel electrophoresis of urine proteins showed that elevated levels of low molecular weight proteins were present in the urines of CdMT-treated rats. Urine RNAase activity was also elevated, approximately 7-fold, by CdMT but not by zinc metallothionein (ZnMT) or lysozyme at equivalent protein doses, demonstrating that a proteinuria indicative of proximal tubule cell dysfunction develops as an early response to CdMT exposure. Ultrastructural alterations were also present in animals injected with CdMT but not ZnMT or lysozyme. The earliest alterations occurred in the lysosome compartment of the cell. By 1 hr, the number of small lysosomes in renal proximal convoluted tubule cells increased significantly with no changes in other organelle compartments. By 4 and 8 hr, there was a further increase in lysosome number with a concomitant decrease in size and a marked increase in the number of small clear apical vacuoles. Lysosomal cathepsin D activity was decreased at 4 and 8 hr after CdMT injection, and in vitro studies indicated that this effect was not due to a direct inhibition of the enzyme by Cd++ or CdMT. Thus, both lysosome size and protease activity were rapidly altered by CdMT exposure. Studies of Cd binding in the kidney suggest that non-MT-bound Cd is an important factor in CdMT-associated toxicity. Approximately 97% of the Cd present in the cytoplasm at 1 hr was non-MT-bound. Prior induction of renal MT by treatment with zinc (20 mg of Zn per kg as ZnSO4, i.p. 16 hr before CdMT injection) markedly reduced non-MT binding of Cd++ in kidneys of treated animals and inhibited the alterations in urine volume and low molecular weight protein reabsorption induced by CdMT. These data suggest that acute CdMT exposure provides an excellent system for studying the mechanism of cadmium tubular proteinuria and that the intracellular renal MT pool plays a key role in regulating this process.
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PMID:Cadmium-Metallothionein nephropathy: relationships between ultrastructural/biochemical alterations and intracellular cadmium binding. 670 45

The enzymatic degradation of insoluble elastin has been studied at several pH values using purified pepsin and cathepsin D, and neutrophil extracts. Pepsin degraded elastin throughout the pH range of 1.2-4.0 with the optimum pH below 2.0. Molecular sieve chromatography and gel electrophoresis indicated that a spectrum of molecular weight degradation products was produced. The degradation by pepsin was inhibited by sodium dodecyl sulfate (SDS), NaCl and pepstatin. Cathepsin D, which, like pepsin, degrades hemoglobin at acid pH and is inhibited by pepstatin, had no activity against insoluble elastin in the pH range of 3.2-7.2. Extracts of neutrophils degraded elastin above pH 4.0. The pH profile of elastin degradation by neutrophil extracts generally followed that of purified human leukocyte elastase. Our results suggest that during alimentation or pulmonary aspiration of gastric contents, extracellular elastin may be digested by gastric juice at acid pH. Inflammatory cells would not appear to be capable of contributing to such actions until local pH approaches neutrality. Cathepsin D, a major constituent of inflammatory cells, does not digest all types of connective tissue proteins.
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PMID:The enzymatic digestion of elastin at acidic pH. 678 96

Human renal renin was purified from normal kidney by either of two protocols which combined sequential DEAE-cellulose chromatography, pepstatin affinity chromatography, gel filtration, and a final step of affinity chromatography using either the synthetic octapeptide renin inhibitor (D-Leu6] or antirenin immunoglobulin as ligand. An approximate 500,000-fold purification and a yield of 1 mg of protein or 7% enzymatic activity from 10 kg were obtained by either method. Maximum specific activity was 1170 Goldblatt units/mg. Amino acid composition and kinetic properties were determined. Using purified angiotensinogen substrate, optimum pH was 5.5-6.0 and the Km was 1.54 X 10(-6) M. Two major forms of renin possessing similar enzymatic and immunologic properties, but differing in apparent molecular size and charge were purified and characterized. One form, the major form obtained after antibody affinity chromatography, had an apparent molecular size of 50 kilodaltons by sodium dodecyl sulfate-gel electrophoresis and migrated more slowly (RF = 0.32) on polyacrylamide disc gel electrophoresis at pH 7.8. The other form had an apparent molecular size of 39 kilodaltons and migrated more rapidly (RF = 0.76) on polyacrylamide disc gels. This smaller form predominated in protocols which allowed the persistent presence of acid protease activity throughout purification. Moreover, renin molecular size was demonstrated to change from 50 to 40 kilodaltons in the presence of this protease, which was subsequently isolated from the penultimate step of renin purification and tentatively identified as a renal cathepsin D. These findings help reconcile certain disparate characteristics for pure human renin obtained by others, explain the marked instability of the human enzyme, and suggest that the apparent molecular size of human renin is somewhat larger than had been previously reported.
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PMID:Pure human renin. Identification and characterization and of two major molecular weight forms. 679 May 33

Two types of cathepsin D (cathepsins D-I and D-II) were purified from rhesus monkey lung to homogeneity as judged from disc gel electrophoresis. Cathepsin D-I was purified about 2,000-fold with a 5.1% yield while cathepsin D-II was purified about 2,300-fold with a 14.3% yield. Both cathepsins D were rich in the lysosome fraction of the lung, but appeared to be present in part extracellularly. Both showed a molecular weight of about 35,000 on Sephadex G-100 chromatography, and about 41,000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Cathepsin D-I showed the maximal activity on bovine hemoglobin and albumin at pH 3.4 and 4.0, respectively. It was most stable in the pH range of 5 to 7, but was rather unstable outside this pH range. Cathepsin D-II was quite similar in properties to that from Japanese monkey lung (Moriyama, A. & Takahashi, K. (1978) J. Biochem. 83, 441-451), and was remarkably stable in the pH range of 1-9. Under the conditions used, it retained at least 80% of the original activity when incubated at 37 degrees C for 20 h in this pH range. This stability seems to allow cathepsin D-II to be fairly active even at pH 1.0. Both cathepsins D acted on protein substrates fairly similarly and hydrolyzed hemoglobin most rapidly among the proteins tested. They did not hydrolyze N-acetyl-L-phenylalanyl-3,5-diiodotyrosine. Upon incubation with the oxidized B-chain of insulin, both cathepsins D hydrolyzed the Ala-Leu, Leu-Tyr, Tyr-Leu, Phe-Phe, and Phe-Tyr bonds at both pH 3.0 and 5.0. In addition, cathepsin D-II hydrolyzed the Leu-Val and Tyr-Thr bonds at pH 3.0 and the Val-Asn bond at pH 5.0. Both cathepsins D were inactivated by acid protease-specific inhibitors such as pepstatin, 1,2-epoxy-3-(p-nitrophenoxy)propane, p-bromophenacyl bromide, and diazoacetyl-DL-norleucine methyl ester, although cathepsin D-II was much less susceptible to these reagents except p-bromophenacyl bromide.
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PMID:Cathepsins D from rhesus monkey lung. Purification and characterization. 699 76

We have obtained evidence of thiol endopeptidases in the thyroid which are active in thyroglobulin degradation in vitro. Four pepstatin-insensitive endopeptidase fractions were distinguished in extracts of rabbit thyroids by gel filtration on Bio-Gel A-0.5m. An enzyme from one fraction was obtained in highly purified form and was found to be identical to cathepsin B described in other tissues. Endopeptidases in the three remaining fractions were designated as cathepsins 180K, 110K, and 45K, respectively, on the basis of their estimated molecular size. These were partially purified by either organomercurial affinity chromatography or DEAE-cellulose chromatography. They are identified as thiol endopeptidases on the basis of their sensitivity to inhibition by both leupeptin and the thiol-blocking agent iodoacetic acid and by their activation with the reducing agent glutathione. Each is distinguished from cathepsin B on the basis of molecular size and limited ability to hydrolyze benzoylarginine-2-naphthylamide. The action of the thiol endopeptidases on [125I]thyroglobulin was analyzed by polyacrylamide gel electrophoresis in sodium dodecyl sulfate or in sodium dodecyl sulfate and urea. In each instance, the initial peptide fragments were approximately 40-45K and 30K, with iodothyronine contents similar to or less than that of intact thyroglobulin. Later products of digestion than that of intact thyroglobulin. Later products of digestion included first, 20K peptides, which showed a low iodothyronine content, and finally, peptides of approximately 10K, which showed a 1.5-fold enrichment of T4 and T3 over that of intact thyroglobulin. Each of the thiol endopeptidases had a synergistic effect when incubated with cathepsin D and [125I]thyroglobulin. Among the products of such incubations were small iodopeptides, which were iodothyronine-enriched, and free T4, itself. The results show that thiol endopeptidases are present in the thyroid gland and are collectively as important as cathepsin D in the hydrolysis of thyroglobulin in vitro. The action of these enzymes must be considered along with that of cathepsin D in understanding thyroglobulin hydrolysis in vivo.
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PMID:Thyroglobulin degradation by thyroidal proteases: action of thiol endopeptidases in vitro. 704 63

Production of active lysosomal enzymes may involve limited proteolysis of inactive high molecular weight precursors. Precursor processing potentially regulates lysosomal enzyme activity. To test whether rabbit cardiac cathepsin D is first synthesized as a precursor and whether prolonged fasting (a condition affecting both cathepsin D and total cardiac protein turnover) influences precursor processing, rates of cathepsin D synthesis and processing were compared in left ventricular slices of control and 3-d-fasted rabbits incubated in vitro with [(35)S]methionine. (35)S-labeled cathepsin D was isolated by butanol-Triton X-100 extraction, immunoprecipitation, and dodecyl sulfate-polyacrylamide gel electrophoresis. Total cardiac protein synthesis was measured by tracer incorporation and normalized for differences in precursor pool size by direct measurement of [(35)S]aminoacyl-tRNA-specific radioactivity. Relative cathepsin D synthetic rates were obtained by comparing (35)S incorporation into cathepsin D with (35)S incorporation into all cardiac proteins. Enzyme processing was assessed in pulse-chase experiments and assayed by autoradiography. The results indicate that (a) rabbit cardiac cathepsin D is synthesized as a precursor (53,000 mol wt) that is processed to a 48,000-mol wt form, (b) rates of both cathepsin D and total cardiac protein synthesis are similar in control and fasted rabbits, suggesting that decreased enzyme degradation rather than increased synthesis is responsible for the elevated levels of cardiac cathepsin D in starvation, and (c) cathepsin D processing in hearts of fasted animals is incomplete, with accumulation of the precursor during pulse-chase experiments of 6 h duration. Based upon these results, a three-stage model for the regulation of cathepsin D activity in rabbit heart is proposed.
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PMID:Regulation of cathepsin D metabolism in rabbit heart: evidence for a role for precursor processing in the control of enzyme activity. 707 56

Cathepsin D has been purified from rabbit thyroids, and its action on thyroglobulin has been examined. The enzyme was obtained in an electrophoretically homogenous form by gel filtration, followed by ion exchange chromatography and affinity chromatography with immobilized pepstatin. In some preparations, the enzyme occurred in a high molecular weight form. The ability of cathepsin D to hydrolyze [125I]thyroglobulin to fragments with a molecular weight of less than 100K was determined by polyacrylamide gel electrophoresis in sodium dodecyl sulfate. This activity showed a pH optimum of 3.5, was greater with reduced thyroglobulin as substrate than with the native protein, and was unaffected by potassium iodide (1-10 mM). Purified cathepsin D rapidly hydrolyzed thyroglobulin to a number of peptide intermediates. Those in the 20-45K molecular weight range had an iodothyronine content equal to or less than that of intact thyroglobulin, but the smallest peptides (apparent molecular weight, less than 2K) were iodothyronine enriched. No evidence was obtained for the release of free hormone by cathepsin D under the experimental conditions used. We conclude that cathepsin D plays a role in the initial breakdown of thyroglobulin in the thyroid and may have some selectivity for the iodothyronine portion of the molecule. The rapid hydrolysis of thyroglobulin that occurs in vivo, however, probably requires the concerted action of cathepsin D with other lysosomal endopeptidases and exopeptidases.
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PMID:Thyroglobulin degradation by thyroidal proteases: action of purified cathepsin D. 708 16

The subcellular distribution of rat erythrocyte NADH-cytochrome b5 reductase was determined by radioimmunoassay, using a rabbit antibody against the cathepsin D cleaved water-soluble fragment of rat liver microsomal reductase (I-reductase), which is known to be immunologically similar to the red cell enzyme. Erythrocytes contained approximately 30 ng of reductase/mg of protein, of which 90% were recovered in the hemolysate supernatant and 2.3% in the ghost fraction. After concentration by precipitation with 70% saturated (NH4)2SO4, the NADH-cytochrome c reductase activity of the soluble enzyme could be assayed in the presence of cytochrome b5, and was found to be inhibited by anti 1-reductase antibodies. The sodium dodecyl sulfate-polyacrylamide gel electrophoretic mobilities of erythrocyte membrane-associated and soluble reductase of the liver microsomal enzyme and its cathepsin D cleaved hydrophilic fragment (I-reductase) were examined in crude fractions by blotting followed by specific and highly sensitive immunostaining. The intact microsomal enzyme and the two erythrocyte reductases all had similar mobilities and migrated behind 1-reductase. However, the ghost-associated reductase, which was not attributable to contaminating leukocyte or reticulocyte membranes, was distinguishable from the soluble form by two criteria: (i) a lower dependence on exogenous cytochrome b5 in the NADH-cytochrome c reductase assay; and (ii) a larger apparent Mr upon gel filtration in the presence of Triton X-100, presumably because of detergent binding. Considering these results, possible biogenetic relations between membrane-bound and soluble erythrocyte reductase are discussed.
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PMID:Rat erythrocyte NADH-cytochrome b5 reductase. Quantitation and comparison between the membrane-bound and soluble forms using an antibody against the rat liver enzyme. 714 81

The degradation of 135I-apoprotein B of human low-density lipoprotein by cell extracts of cultured bovine aortic smooth muscle cells was determined by measuring the formation of acid-soluble products and by analyzing the electrophoretic patterns of digested apoprotein in gels containing sodium dodecyl sulfate. Degradation resulted in an initial rapid accumulation of a limited number of distinct smaller fragments. Two products with apparent molecular weights of 220,000 and 200,000 predominated. Pepstatin inhibited proteolysis almost completely, as measured by either assay. Leupeptin decreased hydrolysis to acid-soluble products by approximately 50%, but had no effect on the initial cleavage of intact apoprotein B. Similar results were found in the case of extracts from cultured human skin fibroblasts and from adult bovine arterial smooth muscle. Leupeptin inhibited intracellular degradation of 125I-apoprotein B in cultured cells by approximately 50%. It is concluded that the intralysosomal degradation of apoprotein B involves an initial limited endoproteolytic attack at susceptible sites by cathepsin D. This and other enzymes, including cathepsin B, then act synergistically to bring degradation to completion.
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PMID:Cathepsin-D-dependent initiation of the hydrolysis by lysosomal enzymes of apoprotein B from low-density lipoproteins. 744 60


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