EC:3.4.23.5 - FACTA Search

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)

N-Diazoacetyl-L-phenylalanine 3-phenyl[2,3-3H]propylamide was synthesized and shown to inhibit pepsin A (EC3,4,23.1) and cathepsin D (EC 3.4.23.5) irreversibly and stoicheiometrically in the presence of Cu2+. Quantitative separation of the inhibited enzyme from excess reagent by gel filtration followed by measurement of the radioactivity of the protein peak provided a method for determining the operational molarity of these enzymes. Several other putative active-site-directed irreversible inhibitors were synthesized, but were inactive. Data on the synthesis of these compounds have been deposited as Supplementary Publication SUP50096 (4 pages) at the British Library Lending Division, Boston Spa, Wetherby, West Yorkshire LS23 7BQ, U.K., from whom copies can be obtained on the terms indicated in Biochem. J. (1978) 169, 5.
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PMID:A radiochemical titrant for the determination of the operational molarity of solutions of acid proteinases. 4 35

The cytoprotective effect of various copper(II) complexes on the gastric mucosa damage induced by acute intragastric administration of ethanol was investigated. For in vitro experiments, the following copper(II) complexes were tested: Cu(II)(L-Trp)(L-Phe), Cu(II)(L-Leu)Cu(II)(L-Leu-Leu)(L-Leu), Cu(II)(L-Phe-L-Leu), Cu(II)(Gly-His-Lys), and Cu(II)(cyHis)2(ClO4)2. Inorganic copper such as CuSO4 was also tested. The free radical generating system, acting for 2 hr on cardial and fundic mucosa scrapings or mucosal microsomes, was Fe++ (20 microM)/ascorbate (0.25 mM). We found a marked inhibition to 75% of lipid peroxidation in the range 10-100 mM, regardless of whether copper was given in complexed or inorganic form. The results suggest that nontoxic copper(II)-amino acid complexes are able to neutralize oxygen-derived free radicals. In addition, copper(II) complexes suppressed membrane lipid peroxidation when mucosa homogenates were exposed to t-butyl hydroperoxide (1-20 microM) plus Fe++ (50 microM). In vivo experiments on rat stomachs, pretreated p.o. by gavage either with Cu(II)(L-Trp)(L-Phe) as paradigmatic agent or with copper sulphate at equivalent doses in the range 3-30 mg/kg body weight showed a significant decrease (30 min after 95% ethanol administration) in the number and severity of mucosal hemorrhagic lesions. In the gastric mucosa scrapings of copper-treated rats after ethanol exposure, we found that malondialdehyde and conjugated diene levels were unchanged compared to those of untreated controls; five enzyme activities released from lysosomes were near control values. In isolated mucosal cells, whether or not pretreated with 200 microM solution of either Cu(II)(L-Trp)(L-Phe) or CuSO4, the release of cathepsin D activity was also unmodified. The results suggest that the cytoprotective effect of Cu(II) complexes against ethanol-induced mucosal lesions was not associated in vivo to lipid peroxidation.
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PMID:Cytoprotective effect of copper(II) complexes against ethanol-induced damage to rat gastric mucosa. 161 1

S-S cross-linking enzyme, skin sulfhydryl oxidase (SSO), catalyzes the formation of disulfide bonds from sulfhydryl groups in skin. The activity of SSO was detected in differing amounts in each of the four layers--stratum corneum, stratum granulosum, stratum spinosum with basal cell layer, and dermis--of cow snout skin, with the highest specific activity being recorded in the stratum granulosum. SSO was stimulated to 130-150% of its initial activity by treatment with 1 mg/ml trypsin, chymotrypsin, or urokinase, but was not affected by plasmin or cathepsin D. These findings suggest that SSO may be activated by some kinds of serine proteases during the keratinocyte autolysis process in the stratum granulosum. SSO showed the highest activity with the addition of 5 microM of Cu2+. The atomic absorptive analysis of purified SSO showed 0.5 atoms of Cu in one molecule of SSO. From these findings, it was determined that Cu2+ was essential for the activity of SSO. The molar ratio of the disappearance of DTT, consumption of O2, and production of H2O2 during the enzyme reaction was 1:1.05:0.89. From these findings, the reactions catalyzed by SSO is suggested to be represented by the following equation: (table; see text).
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PMID:[Localization in skin, activation and reaction mechanisms of skin sulfhydryl oxidase]. 258 80

Procathepsin D-II (Mr = 37 500) was purified from Japanese monkey lung at pH 7.0, and was shown to be converted to the active form, cathepsin D-II (Mr = 33 000) via an intermediate (Mr = 35 500) upon treatment at pH 3.0 and 14 degrees C. Procathepsin D-II was shown to be the inactive precursor of cathepsin D-II based on the following results: the former was inactive toward heat-denaturated casein at pH 5.4 whereas the latter was active; the former was not inactivated by diazoacetyl-DL-norleucine methyl ester in the presence of Cu2+ ion at pH 6.0 whereas the latter was inactivated rapidly under the same conditions; and the former had no affinity to pepstatin-Sepharose between pH 5 and 7 whereas the latter was adsorbed to it. With a rabbit antiserum against procathepsin D-II, cathepsin D-II, pepsinogen C and pepsin C of Japanese monkey were each found to give a single precipitin line which fused completely with each other on agarose plate. On the other hand, cathepsin D-I purified from the monkey lung, and pepsinogens A (I, II, III-1, III-2 and III-3) obtained from the monkey gastric mucosa failed to precipitate with the antiserum. With the antiserum against the monkey pepsinogen C, the same results were obtained. Further, procathepsin D-II and pepsinogen C were shown to have the same amino-terminal amino acid sequence, Ala-Val-Val-Lys-Val-Pro-Leu-Lys-Lys-Phe-Lys-. All these results indicate a strong similarity of procathepsin D-II and cathepsin D-II to pepsinogen C and pepsin C, respectively.
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PMID:Identification of monkey lung procathepsin D-II as a pepsinogen-C-like acid protease zymogen. 640 25

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

Treatment of human neutrophils with a reagent (diazoacetylnorleucine methyl ester plus copper ion) which covalently labels the active site of the acid proteases, pepsin and cathepsin D, inhibits neutrophil chemotaxis and enzyme release stimulated by the chemoattractants pepstatin and formylmethiony peptides. In contrast, chemotaxis and enzyme release in response to zymosan activated serum are not affected. Furthermore, diazoacetylnorleucine methy ester plus copper competes with [3H]formylmethionyl leucylphenylalanine for binding to neutrophils. Since pepstatin shares binding sites with formylmethionyl leucylphenylalanine, the present data suggest that diazoacetylnorleucine methyl ester plus copper reacts with the neutrophil receptor for pepstatin and formylmethionyl peptides, and thus may be useful in further characterization of this structure.
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PMID:Neutrophil chemotaxis and enzyme release competitive inhibition by a diazoacetamide pepsin inhibitor. 677 62

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

In order to develop a clearer understanding of the role of aberrant protein turnover in the pathogenesis of neurodegenerative disorders, the effect of a series of potentially neurotoxic metal ions on a wide range of proteases (lysosomal and cytoplasmic proteinases and peptidases) from human cerebral cortex was determined in vitro. The response of lysosomal and cytoplasmic proteases to inhibition by metal ion species (0.05-5 mmol/l) was broadly similar; Sr2+, Mg2+, Ba2+ or Ca2+ showed little inhibitory effect at any concentration for most protease types, whilst Cu2+, Cd2+, Pb2+, Mg2+ or Zn2+ showed a substantial degree of inhibition, depending on metal ion concentration and enzyme type. Ca2+ activated neutral proteinases were no more susceptible to general metal ion inhibition than most other protease types. Some proteases showed marked activation of activity in the presence of several metal ion species. Both lysosomal and cytoplasmic proteases were relatively insensitive to inhibition by Al3+, compared with that obtained with other metal ion species. It is of note that cathepsin D was particularly resistant to inhibition by most metal ion species, whilst pyroglutamyl aminopeptidase was particularly susceptible to inhibition by low concentrations of many metal ions. The above data suggest that in considering the potential role of neurotoxic metal ions in the pathogenesis of neurodegenerative disorders of the CNS (via protease inhibition in the intracellular protein degradation pathway), attention should be focused on the interactions between a wide range of metal ion species and protease types, rather than be restricted to the Al3+/calpain system (as is presently the case in Alzheimer's disease research). In particular, the potential role of pyroglutamyl aminopeptidase in intracellular protein degradation (in addition to more specialized functions such as neurotransmitter processing) and the pathological consequences of the susceptibility of this enzyme to inhibition by neurotoxic metal ions requires further investigation.
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PMID:Effect of neurotoxic metal ions in vitro on proteolytic enzyme activities in human cerebral cortex. 758 72

The effects of Cu, Fe, Pb and Zn as well as of a Pb + Zn combination on the total, available and nonsedimentable (NS) activities of lysosomal and peroxisomal enzymes were examined. An activating influence on the total activities of liver acid phosphatase (AP) and cathepsin D was shown for Cu. In the kidney the heavy metals induced changes in the total activity only of catalase. The effect of Cu was inhibiting, while that of Pb and of the Pb + Zn combination was activating. Copper produced an increase of NS protease and AP activities in liver homogenates accompanied by a rapid release of latent AP from liver large-granule fractions. According to these data and to generally accepted criteria for assessment of the integrity of lysosomes, Cu can be regarded as a powerful labilizer of lysosomal membranes. This heavy metal induced such an effect on liver peroxisomes as well, a statement which is based on the enhancement of NS catalase activity. In the kidney, Pb and the Pb + Zn combination were shown to produce a significant lowering of NS catalase activity, indicating a stabilization of peroxisomes.
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PMID:Effect of heavy metal salts on the activity of rat liver and kidney catalase and lysosomal hydrolases. 979 65

Phagocytosis of photoreceptor outer segments (OS) by retinal pigment epithelium (RPE) is essential for OS renewal and survival of photoreceptors. Internalized, oxidatively modified macromolecules perturb the lysosomal function of the RPE and can lead to impaired processing of photoreceptor outer segments. In this study, we sought to investigate the impact of intracellular accumulation of oxidatively damaged lipid-protein complexes on maturation and distribution of cathepsin D, the major lysosomal protease in the RPE. Primary cultures of human RPE cells were treated with copper-oxidized low density lipoprotein (LDL) and then challenged with serum-coated latex beads to stimulate phagocytosis. Three observations were noted to occur in this experimental system. First, immature forms of cathepsin D (52 and 46 kDa) were exclusively associated with latex-containing phagosomes. Second, maturation of cathepsin D was severely impaired in RPE cells loaded with oxidized LDL (oxLDL) prior to the phagocytic challenge. Third, pre-treatment with oxLDL caused sustained secretion of pro-cathepsin D and the latent form of gelatinase A into the extracellular space in a dose-dependent manner. These data stimulate the hypothesis that intracellular accumulation of poorly degradable, oxidized lipid-protein cross-links, may alter the turnover of cathepsin D, causing its mistargeting into the extracellular space together with the enhanced secretion of a gelatinase.
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PMID:Products of lipid peroxidation induce missorting of the principal lysosomal protease in retinal pigment epithelium. 1515 11

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