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)

We designed aldehyde derivatives of small peptides representing the C-terminal portion of angiotensin I sequence as an inhibitor of human renin. Among compounds that we synthesized, benzyloxycarbonyl (Z)-Phe-His-Leucinal (compound V), Z-Pro-Phe-His-Leucinal (Compound IV) and Z-[3-(1'-naphthyl)Ala]-His-Leucinal (compound VII) markedly inhibited human renin (IC50, 7.5 X 10(-7), 3.2 X 10(-7) and 8.0 X 10(-8) mol/l, respectively). Compound VII was shown to be noncompetitive (Ki = 2.4 X 10(-7) mol/l). It did not inhibit either cathepsin D or pepsin. Compound V had slight or no inhibitory effect at the concentration of 10(-5) mol/l on six animal renins except for monkey and rabbit renins. Results obtained show that these aldehyde compounds are highly selective and species specific inhibitors for human and monkey renins.
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PMID:Highly potent and specific inhibitors of human renin. 642 31

The properties and subcellular localization of the elastase-like activities of smooth muscle cells cultured from pig aortas have been investigated. Homogenates of the cells hydrolysed N-succinyl-L-alanyl-L-alanyl-L-alanine-p-nitroanilide, a synthetic substrate for elastases, with a distinct pH optimum of 8.2 and hydrolysed insoluble elastin with a distinct pH optimum of 8.5. Both enzyme activities were directly proportional to the concentration of homogenate in the assay mixture. The activities toward both substrates were inhibited by phenylmethylsulphonyl fluoride and were therefore probably due to a serine peptidase(s). The activities were also inhibited by EDTA and, in a dose-related manner, by alpha 1-antiprotease. Pepstatin, which inhibits cathepsin D, and leupeptin, which inhibits cathepsin B, did not significantly inhibit the elastase-like activities in these cells. The cells were homogenized and a post-nuclear supernatant subjected to sucrose density gradient centrifugation. The distribution of elastase-like activity toward both substrates was similar to that of the plasma membrane marker 5'-nucleotidase, and distinct from those of marker enzymes for the other organelles. Cells were also homogenized with digitonin, which selectively increases the equilibrium density of the plasma membrane. The equilibrium densities of both 5'-nucleotidase and of the elastase-like activities were increased considerably, confirming the plasma membrane localization of the elastase-like activities. The subcellular localization of the elastase-like activities of arterial smooth muscle cells is therefore consistent with a role for them in the degradation of elastin in the normal arterial wall and in atherosclerotic lesions.
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PMID:Properties and subcellular localization of elastase-like activities of arterial smooth muscle cells in culture. 655 16

Protein synthesis and degradation and net uptake and release of amino acids and minerals were investigated in the perfused hemicorpus of acutely uremic and sham-operated control Sprague-Dawley rats. Rats underwent bilateral nephrectomy or sham surgery and were studied 30 hours after surgery. The uremic rats displayed greater urea nitrogen appearance (net urea generation), lower plasma and muscle intracellular concentrations of most amino acids, and increased protein degradation in the hemicorpus as compared with control animals. Muscle protein synthesis was slightly but not significantly decreased in the uremic animals as compared with controls. There was greater net release of phenylalanine, tyrosine, alanine, total nonessential amino acids, total amino acids, potassium, and phosphorus from the perfused hemicorpus of uremic rats and greater release of citrulline from sham rats. Muscle ATP, creatine phosphate, and cyclic AMP, and muscle cathepsin B1, cathepsin D, and alkaline protease activities were not different in the uremic and control rats. These data provide evidence that acutely uremic rats have increased muscle protein wasting which is due to enhanced protein degradation. The cause of the increased muscle protein degradation is unknown.
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PMID:Effect of acute uremia on protein degradation and amino acid release in the rat hemicorpus. 658 68

The amino acid sequences near the glycosylation sites and the oligosaccharide structures have been determined for the lysosomal protease cathepsin D from porcine spleen. Cathepsin D light and heavy chains were separately digested with proteases and the glycopeptides were purified. A single sequence was constructed from the amino acid sequence of the light chain glycopeptides which is: Tyr-Asn-Ser-Gly-Lys-Ser-Ser-Thr-Tyr-Val-Lys-Asn(CH2O)-Gly-Thr-Thr-Phe. A single glycopeptide sequence was also obtained for the heavy chain: Lys-Gly-Ser-Leu-Asp-Tyr-His-Asn(CH2O)-Val-Thr-Arg-Lys-Ala-Tyr. The light chain sequence is homologous with the sequence of porcine pepsin from residues 56 to 71. The heavy chain sequence is homologous with the pepsin sequence from residues 176 to 189. Thus, the 2 oligosaccharide-linked asparagines in cathepsin D correspond to residues 67 and 183 in pepsin and other homologous aspartyl proteases. These positions are located on the surface of the crystal structures of aspartyl proteases. Five oligosaccharides linked to Asn-67 were separated and their structures determined with proton NMR. Four major oligosaccharides are structural variants from the high mannose-type having 3, 5, 6, and 7 mannoses, respectively. A minor structure contained a third GlcNAc. Three oligosaccharide structures were found linked to Asn-183. Two major oligosaccharides are of the high mannose-type each with 5 mannose residues. One of the two contains a fucose linked to a GlcNAc. A third, very minor oligosaccharide contains galactose.
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PMID:Oligosaccharide units of lysosomal cathepsin D from porcine spleen. Amino acid sequence and carbohydrate structure of the glycopeptides. 682 41

Ten analogs of the peptide A-Phe(NO2)-Phe-Val-Leu-B were synthesized and tested as substrates for cathepsin D and pepsin. The best substrate found for cathepsin D, Phe-Ala-Ala-Phe(NO2)-Phe-Val-Leu-OM4P (kcat = 2.9 s-1; Km = 7.1 microM), has the largest kcat/Km value (408 mM-1 s-1) reported to date for this enzyme. The effect of peptide structure on solubility and kinetic parameters is discussed. The peptide provides a useful new substrate for continuous assay of cathepsin D.
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PMID:An improved cathepsin-D substrate and assay procedure. 686 96

Cathepsin D inactivated aldolase at pH values between 4.2 and 5.2; the chloride, sulphate or iodide, but not citrate or acetate, salts of sodium or potassium accelerated the rate of inactivation. Cathepsin D cleaved numerous peptide bonds in the C-terminus of aldolase, but the major site of cleavage in this region was Leu354-Phe355. The most prominent peptide products of hydrolysis were Phe-Ile-Ser-Asn-His-Ala-Tyr and Phe-Ile-Ser-Asn-His. Up to 20 amino acids were removed from the C-terminus of aldolase, but no further degradation of native aldolase was observed. By contrast, extensive degradation of the 40 000-Mr subunit was observed after aldolase was denatured. The cathepsin D-inactivated aldolase cross-reacted with antibodies prepared against native aldolase and had the same thermodynamic stability as native aldolase, demonstrated by differential scanning calorimetry and fluorescence quenching of tryptophan residues. Furthermore, the cathepsin-modified and native forms of aldolase were both resistant to extensive proteolysis by other purified cellular proteinases and lysosomal extracts at pH values of 4.8-8.0.
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PMID:Action of cathepsin D on fructose-1,6-bisphosphate aldolase. 688 56

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

The present study was performed to investigate the enzymatic changes in dystrophic chickens compared to those of dystrophic mice. The activities of 14 kinds of aminopeptidases, 5 kinds of endopeptidase, 4 kinds of glycosidases, phosphatase, esterase, and ribonuclease were measured in muscles of control and dystrophic chickens. When the enzyme activities were expressed as specific activity per unit weight of organs, only some of them were found to be significantly elevated in dystrophic chickens; e.g., alanine aminopeptidase (Ala-AP), Gly-AP and cathepsin D. On the contrary, the activities of alpha-D-glycosidase, alpha-D-galactosidase and alpha-D-mannosidase were significantly decreased. Muscular protein contents of dystrophic chickens also tended to be lower than those of controls. These observations offer a striking contrast with the one obtained in the study on dystrophic mice. However, when expressed as specific activity per mg protein, many enzyme activities were found to be significantly elevated suggesting an extensive abnormality of metabolism in dystrophic chickens. Among 14 kinds of aminopeptidase activities, highly significant elevations were seen especially in AP-A, AP-B, Gly-AP, Ala-AP, Ser-AP, Pro-AP, Leu-AP, Met-AP and Trp-AP. Interestingly enough, a statistical approach suggested a significant correlation between the aminopeptidase changes of dystrophic chickens with those of dystrophic mice. In addition to aminopeptidases, there were highly significant increases in the activities of cathepsin D, alpha-D-glucosidase, beta-D-galactosidase, alpha-D-mannosidase, esterase and RNase. These results indicate that the intramuscular metabolic abnormality of dystrophic chickens are generally different from but partly resembled with those of dystrophic mice.
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PMID:Intramuscular enzyme abnormalities of dystrophic chickens compared to those of dystrophic mice. 701 13

Initial cleavage sites of native insulin at a pH of about 3 and stereospecificity were investigated by fungal carboxyl proteinases (EC 3.4.23.6) from ASpergillus sojae, a species of fungi imperfecti, and Pycnoporus coccineus (formerly designated Trametes sanguinea), a wood deteriorating Basidiomycete, respectively. Fungal carboxyl proteinases were used as a model of vertebrate insulin degradation. A. sojae carboxyl proteinase I primarily hydrolyzed two peptide bonds located on the surface of native insulin monomer, the B16-B17 (Tyr-Leu) and B24-B25 (Phe-Phe) bonds, and secondarily the buried bonds, A15-A16 (Gln-Leu), B15-B16 (Leu-Tyr) and B14-B15 (ala-Leu), at pH 3.2 and 30 degree C. The initial cleavage sites of A. sojae carboxyl proteinases I towards native insulin were not identical with the initial cleavage sites towards the oxidized B chain of insulin. P. coccineus carboxyl proteinase Ia selectively hydrolyzed B14-B15 (Ala-Leu), B16-B17 (Tyr-Leu) and B24-B25 (Phe-Phe) bonds in the native insulin at pH 2.7. Based on these findings we suggest that the stereospecificity of the fungal carboxyl proteinases is similar to that of cathepsin D (EC 3.4.23.5), and that the synthesis and degradation of insulin may occur in microorganisms.
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PMID:Initial sites of insulin cleavage and stereospecificity of carboxyl proteinases from Aspergillus sojae and Pycnoporus coccineus. 703 82

Procathepsin L, the precursor to a powerful lysosomal cysteine proteinase, has been purified to apparent homogeneity from guinea pig spermatozoa, a novel and previously unrecognized source of this catalytically active zymogen. In the range of pH 5.0, procathepsin L (39,000 M(r)) readily self-processed yielding a mature, single-chain proteinase (29,000 M(r)) and an intact propeptide (10,000 M(r)) by what appeared kinetically to be an intramolecular reaction mechanism. These characteristics resembled those reported for the "major excreted protein" (MEP) of malignantly transformed mouse fibroblasts-a protein that has been characterized as the precursor to the mouse analog of human cathepsin L (B. R. Troen, S. Gal, and M. M. Gottesman (1987) Biochem. J. 246, 731-735). Other characteristics shared by the guinea pig and mouse zymogens included proteolytic activity at pH 5.0, homologous N-terminal amino acid sequences, and immunological relatedness. It was thus concluded that acrosomal procathepsin L is the guinea pig analog of MEP. Acrosomal procathepsin L had a specific activity on benzyloxy-carbonyl-Phe-Arg-7-(4-methyl)coumarylamide (Z-Phe-Arg-NMec) of 30 mumol min-1 mg-1 enzyme at pH 3.2 and 37 degrees C. Relative to the assay substrate, rates on other fluorogenic substrates were 90% for Z-Phe-Cit-NMec, 63% for Z-Leu-Leu-Arg-NMec, 43% for D-Phe-Ser(Bzl)-Phe-Phe-Ala-Ala-p-aminobenzoate (a "specific" cathepsin D assay substrate), and 32% for Z-Val-Val-Arg-NMec. No action was detected on Z-Arg-Arg-NMec or Arg-NMec. Mature cathepsin L showed the same relative order of substrate specificity as its proenzyme form, but the absolute rates were about 5-fold greater. Additionally, the mature (single-chain) form of cathepsin L displayed Km and kcat values on Z-Phe-Arg-NMec that yielded an exceptionally high catalytic coefficient (11,600 s-1 mM-1) compared to values reported for two-chain forms of cathepsin L. Self-processing by acrosomal procathepsin L at pH 5.5 was totally inhibited by leupeptin, cystatin C, Ep-475, and Z-Phe-Phe-CHN2 at 1 microM levels. Gossypol (0.1 mM) gave 94% inhibition. Interestingly, dextran sulfate (100 micrograms ml-1) gave a 3.6-fold increase in the rate of self-processing seen at pH 5.5--a phenomenon of potential physiological relevance in view of the high-negative-charge density present within the hyaluronic acid-rich outer layer (cumulus oophorus) of the ovum.
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PMID:Purification and characterization of procathepsin L, a self-processing zymogen of guinea pig spermatozoa that acts on a cathepsin D assay substrate. 748 6

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