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)

Lysosomal cysteine proteinases were fractionated from partially purified rat muscle lysosomes. By gel filtration on Sephadex G75, cathepsin D was separated from two thiol-requiring proteolytic fractions of Mr 25 000 and 55 000, respectively. By chromatofocusing, the first fraction (Mr = 25 000) was resolved into three isoenzymic forms of cathepsin H, eluted at pH 5.8, 6.0 and 7.2, respectively, and two isoenzymic forms of cathepsin B, eluted at pH 5.5 and 5.25. Cathepsin H isoenzymes hydrolyzed Arg-NNap and BANA, were totally inhibited by 1 mM p-CMB and only to 60% by 5.10(-5) M leupeptin. The two forms of cathepsin B which degraded Z-Phe-Arg-NMec, Z-Arg-Arg-NNap and BANA were very sensitive to p-CMB and leupeptin. In addition to cathepsins B and H, a typical cathepsin-L- like activity was found in this fraction but only as a very minor component. The high Mr fraction (Mr = 55 000) contained a cysteine proteinase hydrolyzing, at pH 6.0, Z-Phe-Arg-NMec, and to a lesser extent Z-Arg-Arg-NNap and BANA. Unlike cathepsins B and H, it was very sensitive to p-CMB and HgCl2 and was fully activated only in the presence of 10 mM DTT, and inhibited to 93% by 2.10(-8) M leupeptin. By chromatofocusing, it was resolved into several isoenzymatic forms, eluted between pH 5.8 and 4.0.
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PMID:Cysteine proteinase content of rat muscle lysosomes. Evidence for an unusual proteinase activity. 639

The complete amino acid sequence of the light chain of cathepsin D from porcine spleen has been determined. The light chain consists of a single polypeptide chain with 97 amino acid residues. The sequence is: (formula; see text) The molecular weight of the light chain was calculated from this sequence to be 10,548 (without carbohydrates). A single disulfide bond links two half-cystine residues between positions 46 and 53. A cysteine residue is located at position 27. The light chain sequence is extensively homologous to the NH2-terminal sequence of other aspartyl proteases. It shows a 59% identity with the sequence of mouse submaxillary gland renin and a 49% identity with that of porcine pepsin. A single glycosylation site is located at residue 70 of the cathepsin D light chain. This site corresponds to position 67 of pepsin by homology. The active site aspartyl residue, corresponding to Asp-32 of pepsin, is located at residue 33 in the cathepsin D light chain.
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PMID:Amino acid sequence of porcine spleen cathepsin D light chain. 640 81

The threonine analog beta-hydroxynorvaline is an inhibitor of asparagine-linked glycosylation. In the presence of the analog human fibroblasts synthesized cathepsin D molecules containing two, one, or no oligosaccharides. The nonglycosylated cathepsin D precursor was but a minor species and was degraded within 45 min of its synthesis, presumably in the lumen of the endoplasmic reticulum. The polypeptides with one or two oligosaccharides were normally segregated into lysosomes and their proteolytic maturation was not affected. The stability of mature glycosylated and nonglycosylated cathepsin D polypeptides within the lysosomes, however, was markedly decreased. The recovery of cathepsin D polypeptides was increased in the presence of inhibitors of cysteine and aspartyl-proteinases. These data suggest that the absence of carbohydrate side chains in cathepsin D results in an enhancement of the degradation rate of the precursor in the endoplasmic reticulum, and the replacement of threonine by beta-hydroxynorvaline in an enhanced degradation of the mature cathepsin D in lysosomes.
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PMID:Enhanced degradation of cathepsin D synthesized in the presence of the threonine analog beta-hydroxynorvaline. 642 71

Val-D-Leu-Pro-Phe-Phe-Val-D-Leu, a specific inhibitor of aspartate proteinases of the pepsin type, was synthesized. Its bonding to activated 6-aminohexanoic acid-Sepharose 4B afforded an affinity support suitable for the purification of human, porcine, and chicken pepsin, human gastricsin, and bovine cathepsin D. These enzymes bind to the support over the pH range 2-5 at 0-1.5 M concentration of NaCl. A buffer at pH greater than or equal to 6, low ionic strength, and containing 20% dioxane can serve as a general desorption agent. The proteinases were isolated from the crude extracts by a single-step procedure in a high degree of purity and in yields exceeding 70%; human pepsin, however, was not separated from human gastricsin. The support does not show any binding capacity for rat plasma renin at pH 7.4 and for some cysteine endopeptidases (cathepsin B, H, and L) at pH 3-5. The cathepsin D preparations isolated by affinity chromatography on the new support and on pepstatin-Sepharose were of the same degree of purity as evidenced by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, N-terminal amino acid sequences, and specific activity.
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PMID:Purification of pepsins and cathepsin D by affinity chromatography on Sepharose 4B with an immobilized synthetic inhibitor. 643 40

Enzymatic activity was investigated in metal-binding proteins from rat epidermal cells. Tris-HCl buffer soluble and KSCN solubilized proteins were extracted stepwise from granular and cornified cells of 2-day old rat epidermis. Each extract was separately applied to a Cu2+ or Zn2+ chelate Sepharose 6B column and the proteins were eluted with buffers of different pHs and finally with EDTA solution. Metal chelate-binding proteins were found in both soluble and solubilized proteins but there was a larger amount in the latter. Affinity of the proteins to bind with Cu2+ chelate was greater than that with Zn2+ chelate. In Tris-HCl buffer extract, histidase activity was detected in Cu2+ chelate-binding proteins, but not in Zn2+ chelate-binding proteins. Acid phosphatase, cysteine proteinase, dipeptidase, cathepsin D, beta-galactosidase, gelatin hydrolase, and superoxide dismutase did not bind to metal chelates although these enzymes, except acid phosphatase, were inhibited by Cu2+, but not by Zn2+. In contrast, KSCN solubilized metal chelate-binding proteins showed plasminogen activator, acid phosphatase, and gelatin and casein hydrolases while histone hydrolase did not bind to either chelate column. Since metal-binding proteins in rat epidermal cells have been shown previously to be histidine- and cysteine-rich proteins concentrated in keratohyalin granules, interaction of metals and the structural proteins with certain enzymes may be involved in the regulation of epidermal cell functions.
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PMID:Enzymatic activity of metal-binding proteins in epidermal cells. 653 44

Attempts were made to assess the role of thiols and to determine the cathepsins involved in the degradation of serum albumin in mouse liver and kidney lysosomes. Unlike cysteine or beta-mercaptoethanol, reduced glutathione (GSH) did not stimulate the degradation of formaldehyde-treated albumin in liver lysosomes, suggesting that the tripeptide did not penetrate the membrane. However, GSH was a much more effective stimulant of proteolysis in kidney lysosomes than was cysteine at low concentrations, and the effect was saturable at 1-2 mM concentrations. Thiols did not stimulate proteolysis in lysosomes when the disulphide bonds of albumin were reduced and alkylated, suggesting that the stimulatory effects were solely due to disulphide-bond reduction in protein substrates. Results obtained with thiols and iodoacetamide suggested that albumins denatured by disulphide-bond reduction and alkylation, disulphide-bond reduction without alkylation, or by treatment with 8 M-urea, were all degraded primarily by cathepsin D in lysosomes, but formaldehyde-denatured albumin was attacked by thiol proteinases. These findings correlated well with studies on the degradation of these proteins by rat liver lysosome (tritosome) extracts. Studies with the proteinase inhibitors leupeptin and pepstatin and the stimulatory effects of thiols in these extracts suggested that formaldehyde-denatured albumin was degraded primarily by the thiol proteinases, but that native albumin or albumins denatured by disulphide-bond reduction or by treatment with 8 M-urea were attacked by cathepsin D. Denaturation of serum albumin by any of the methods used caused a shift in the pH optimum of albumin catabolism by tritosome extracts or by purified cathepsin D from approx. 3-4 to 5-6. These results were discussed in terms of a possible mechanism for the catabolic aspect of serum albumin turnover.
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PMID:Role of thiols, pH and cathepsin D in the lysosomal catabolism of serum albumin. 672 34

Leucocytes and spleen contain four different types of protein proteinase inhibitors. Two of them can be inactivated by cathepsin D. In this work biochemical and immunological studies of the inactivation of I-2 by cathepsin D are presented. Polyacrylamide gel electrophoretic examinations indicate that cathepsin D inactivates I-2 by hydrolysis of the inhibitor molecule. The conversion of the active inhibitor into inactive protein proceeds catalytically. The studies on the inhibitor mechanism of the isoinhibitors of I-1 type explain the unusual inhibitor property of this type of inhibitor to inhibit two different types of proteinases, cysteine and serine. The evidence suggests that the inhibitory mechanism is based on an active sulfhydryl group of the inhibitor which may interact with the disulfide bridge of the inhibited proteinase.
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PMID:Some further characteristics of endogenous proteinase inhibitors. 705 4

The effects of thiols on the breakdown of 125I-labelled insulin, albumin and formaldehyde-treated albumin by highly purified rat liver cathepsins B, D, H and L at pH 4.0 and 5.5 were studied. At both pH values degradation was strongly activated by the thiols cysteamine, cysteine, dithiothreitol, glutathione and 2-mercaptoethanol, and its rate increased with increasing thiol concentration. Preincubation of the protein substrates with 5 mM-glutathione did not affect concentration. Preincubation of the protein substrates with 5 mM-glutathione did not affect the rate of degradation by cathepsin D or L, and determination of free thiol groups after incubation of the proteins in the presence of glutathione but without cathepsin showed that their disulphide bonds were stable under the incubation conditions. Sephadex G-75 chromatography of the acid-soluble products of insulin digestion by cathepsin D or L suggested that thiols can reduce disulphide bonds in proteins after limited proteolysis. The resultant opening-up of the protein structure would lead to further proteolysis, so that the two processes (proteolysis and reduction) may act synergistically. By using the osmotic protection method it was shown that, at a physiological pH, cysteamine, and its oxidized form cystamine, can cross the lysosome membrane and thus may well be the physiological hydrogen donor for the reduction of disulphides in lysosomes. The results are discussed in relation to the lysosomal storage disease cystinosis.
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PMID:Role of thiols in degradation of proteins by cathepsins. 705 70

Several gold salts were compared in kaolin-induced rat paw oedema, u.v. erythema in guinea pigs, delayed type hypersensitivity and humoral immunity in mice, and adjuvant-induced arthritis in the rat. In the latter the additional parameters of serum gold and copper levels and lysosomal enzyme activity were determined. In addition, the in vitro inhibition of several lysosomal enzymes derived from mouse macrophages was studied. The gold compounds examined were aurothiomalate, aurothioglucose, triethylphosphine gold chloride (SK & F 36914) and its glucopyranoside derivative (SK & F D-39162), triphenylphosphine gold chloride and sodium gold chloride dihydrate. SK & F 36914 and SK & F D-39162 has significant activity after oral dosage upon paw kaolin and u.v. erythema in rats and guinea pigs, respectively. Gastric swelling also occurred. In Wistar rats, adjuvant arthritis was little affected by the gold salts but in the Lewis rats there was suppression. In both strains there was less elevation in serum copper levels with treatment by SK & F 36914 and SK & F D-39162, but not by aurothiomalate. None of the compounds had any measurable effect on delayed hypersensitivity or humoral antibody levels in mice. The in vitro activities of cathepsin B1 and cathepsin D were inhibited by all the gold compounds. Reactivity of gold compounds with glutathione and cysteine in vitro was dependent on compound solubility and the nature of the gold ligand. Considerable differences exist between the profiles of activity for the different gold salts evaluated. These observations indicate that some gold salts do possess anti-inflammatory activity with a potency similar to that of indomethacin.
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PMID:Action of gold salts in some inflammatory and immunological models. 738 10

Proteolytic processing of neuropeptide precursors is required for production of active neurotransmitters and hormones. In this study, a chromaffin granule (CG) aspartic proteinase of 70 kDa was found to contribute to enkephalin precursor cleaving activity, as assayed with recombinant ([35S]Met) preproenkephalin. The 70-kDa CG aspartic proteinase was purified by concanavalin A-Sepharose, Sephacryl S-200, and pepstatin A agarose affinity chromatography. The proteinase showed optimal activity at pH 5.5. It was potently inhibited by pepstatin A, a selective aspartic proteinase inhibitor, but not by inhibitors of serine, cysteine, or metalloproteinases. Lack of inhibition by Val-D-Leu-Pro-Phe-Val-D-Leu--an inhibitor of pepsin, cathepsin D, and cathepsin E--distinguishes the CG aspartic proteinases from classical members of the aspartic proteinase family. The CG aspartic proteinase cleaved recombinant proenkephalin between the Lys172-Arg173 pair located at the COOH-terminus of (Met)enkephalin-Arg6-Gly7-Leu8, as assessed by peptide microsequencing. The importance of full-length prohormone as substrate was demonstrated by the enzyme's ability to hydrolyze 35S-labeled proenkephalin and proopiomelanocortin and its inability to cleave tri- and tetrapeptide substrates containing dibasic or monobasic cleavage sites. In this study, results provide evidence for the role of an aspartic proteinase in proenkephalin and prohormone processing.
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PMID:Characteristics of the chromaffin granule aspartic proteinase involved in proenkephalin processing. 756 75


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