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)

In vitro degradation of insoluble vitreous collagen by the action of collagenolytic cathepsin was studied biochemically. Among bovine ocular tissues, the uvea and the retina showed relatively high collagenolytic activity. The ciliary body revealed the highest specific activities of both cathepsin B and collagenolytic cathepsin. Leupeptin and p-chloromercuribenzoate inhibited both cathepsin B and collagenolytic cathepsin in the ciliary body lysosomes. Pepstatin inhibited cathepsin D, but did not affect cathepsin B and collagenolytic cathepsin. It is suggested that distribution and properties of collagenolytic cathepsin are similar to those of cathepsin B in the bovine eye.
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PMID:The distribution and some properties of collagenolytic cathepsin in the bovine eye. 30 80

1. Turnover of intracellular proteins in cultured mouse macrophages was found to be slightly accelerated by the omission of serum from the culture medium. Media containing 10% (v/v) or more of serum established basal degradation rates in the cultures. 2. Basal degradation rates varied considerably between experiments, probably as a result of variable activation in vivo of the macrophages. 3. The selective carboxyl proteinase inhibitor pepstatin, which appeared to enter the lysosomes of the cells by pinocytosis, gave a progressive inhibition of basal proteolysis up to a maximum of about 40%. Cellular cathepsin D was largely inhibited after 48h of cultivation with pepstatin (100 micrograms/ml). 4. Leupeptin and 7-amino-1-chloro-3-tosylamidoheptan-2-one are less selective proteinase inhibitors. They also induced 25--35% inhibition of degradation, but their actions may not have been restricted to lysosomes. 5. Several solutes and particles that are endocytosed by macrophages and stored in lysosomes induce some inhibition of basal proteolysis, whether or not they themselves are substrates for proteolysis. 6. Colchicine was without effect on protein degradation, but cytochalasin B and the local anesthetics lidocaine and procaine, all of which have effects on microfilaments, were significantly inhibitory. This inhibition may result from a decrease in the rate of autophagy, and thus of lysosomal proteolysis, due to prevention of microfilament action.
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PMID:Macrophage protein turnover. Evidence for lysosomal participation in basal proteolysis. 48 12

In the last 11 years the authors have succeeded in isolating nearly 40 enzyme inhibitors of small molecular size from microbial origins. These inhibitors proved to be not only useful tools in analyses of homeostasis of living organisms but also promising agents for cancer chemotherapy. Leupeptin was originally isolated as an inhibitor against serine or thiol proteases such as trypsin, plasmin, papain and cathepsin B. And soon it was demonstrated that leupeptin suppressed chemical carcinogenesis in rats. Pepstatin has an extremely strong activity to inhibit pepsin and cathepsin D. It also inhibits ascites accumulation caused by neoplastic diseases. Bestatin is a specific inhibitor against aminopeptidase B and leucine aminopeptidase. The enzymes are located on the surface membrane in various kinds of cells including lymphocytes. Bestatin was shown to enhance not only blastogenesis of lymphocytes in vitro but also establishment of delayed-type hypersensitivity in vivo. Combined use of bestatin and other antitumor agents gave promising results in animal experiments. Studies on enzyme inhibitors have provided us a new approach to cancer chemotherapy.
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PMID:Enzyme inhibitors in relation to cancer therapy. 61 3

The antimetastatic activity of adriamycin in combination with proteinase inhibitors was investigated in mice bearing the metastatic tumors L1210 leukemia, Lewis lung carcinoma or M5076 sarcoma. Leupeptin, a cathepsin B inhibitor, when administered as a single agent was devoid of antimetastatic activity but some therapeutic activity was noted in mice with Lewis lung carcinoma when the agent was administered in combination with adriamycin. Pepstatin A, a cathepsin D inhibitor, had no effect as a single agent in mice with L1210 leukemia but displayed some antimetastatic activity in mice with Lewis lung carcinoma. In mice with M5076 sarcoma the combination of pepstatin A and adriamycin resulted in antimetastatic activity significantly greater than that observed with each agent alone. These results suggest that combinations of proteinase inhibitors with antitumor drugs such as adriamycin, might result in more effective antimetastatic treatment.
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PMID:Antimetastatic activity of adriamycin in combinations with proteinase inhibitors in mice. 233 38

Purified hog thyroid lysosomes, prepared by a procedure previously developed in this laboratory, were used to study lysosomal digestion of [131I]thyroglobulin [131I]Tg). The lysosomal proteases were solubilized with 0.1% Triton X-100. Rates of proteolytic digestion, measured by the release of ethanol-ammonium acetate-extractable 131I, were greatly stimulated by thiol reagents. The pH optimum was also affected by the presence of thiols. In the absence of a thiol reagent, a broad pH optimum was observed, ranging from 3.5-4.5. However, in the presence of 1 mM mercaptoethanol, the maximum rate of digestion occurred at pH 5.0, very close to reported values for the internal pH of lysosomes. Pepstatin, an inhibitor of cathepsin D, markedly inhibited lysosomal digestion of [131I]Tg at concentrations as low as 0.01 micrograms/ml. Its inhibitory effect was greater at pH 3.5 (pH optimum of cathepsin D) than at pH 5.0. Leupeptin, an inhibitor of thiol proteases, was not as potent as pepstatin, but it was significantly inhibitory at a concentration of 1 microgram/ml. In contrast to pepstatin, leupeptin displayed a greater inhibitory effect at pH 5.0 than at pH 3.5. The pH optimum of hog thiol proteases has been reported to range from 5.5-6.5. The effects of the two inhibitors were additive at pH 5.0. We conclude from these results that both cathepsin D and thiol proteases play a role in lysosomal digestion of Tg. Cathepsin D appears to be quantitatively more important than thiol protease in the initial phase of the digestion. The stimulatory effect of thiols on lysosomal digestion of [131I]Tg probably involves two separate effects: 1) stimulation of thiol proteases, and 2) reduction of S-S bonds in Tg, making the protein more susceptible to attack by proteolytic enzymes. Poorly iodinated [131I]Tg was more rapidly hydrolyzed than well iodinated [131I]Tg, based on the release of ethanol-ammonium acetate-extractable 131I. However, there was little or no difference in the rate of total peptide bond cleavage between poorly iodinated and well iodinated Tg. These results suggest that the first sites of iodination of Tg are preferentially attacked by lysosomal proteases. Long term (24-h) digestion of [131I]Tg with solubilized thyroid lysosomes at pH 5.0 in the presence of thiol compounds was just as effective as digestion with pronase at pH 8.0 in liberating free 131I-labeled iodothyronines and 131I-labeled iodotyrosines. Thus, thyroid lysosomes contain the full complement of proteases and peptidases required for cleaving free iodoamino acids from Tg.
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PMID:Lysosomal digestion of thyroglobulin: role of cathepsin D and thiol proteases. 389 65

In order to study the intracellular localization of the proteolytic processing steps in the maturation of alpha-glucosidase and cathepsin D in cultured human skin fibroblasts we have used incubation with glycyl-L-phenylalanine-beta-naphthylamide (Gly-Phe-NH-Nap) as described by Jadot et al. [Jadot, M., Colmant, C., Wattiaux-de Coninck, S. & Wattiaux, R. (1984) Biochem. J. 219,965-970] for the specific lysis of lysosomes. When a homogenate of fibroblasts was incubated for 20 min with 0.5 mM Gly-Phe-NH-Nap, a substrate for the lysosomal enzyme cathepsin C, the latency of the lysosomal enzymes alpha-glucosidase and beta-hexosaminidase decreased from 75% to 10% and their sedimentability from 75% to 20-30%. In contrast, treatment with Gly-Phe-NH-Nap had no significant effect on the latency of galactosyltransferase, a marker for the Golgi apparatus, and on the sedimentability of glutamate dehydrogenase and catalase, markers for mitochondria and peroxisomes, respectively. The maturation of alpha-glucosidase and cathepsin D in fibroblasts was studied by pulse-labelling with [35S]methionine, immunoprecipitation, polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulphate and fluorography. When homogenates of labelled fibroblasts were incubated with Gly-Phe-NH-Nap prior to immunoprecipitation, 70-80% of all proteolytically processed forms of metabolically labelled alpha-glucosidase and cathepsin D was recovered in the supernatant. The earliest proteolytic processing steps in the maturation of alpha-glucosidase and cathepsin D appeared to be coupled to their transport to the lysosomes. Although both enzymes are transported via the mannose-6-phosphate-specific transport system, the velocity with which they arrived in the lysosomes was consistently different. Whereas newly synthesized cathepsin D was found in the lysosomes 1 h after synthesis, alpha-glucosidase was detected only after 2-4 h. When a pulse-chase experiment was carried out in the presence of 10 mM NH4Cl there was a complete inhibition of the transport of cathepsin D and a partial inhibition of that of alpha-glucosidase to the lysosomes. Leupeptin, an inhibitor of lysosomal thiol proteinases, had no effect on the transport of labelled alpha-glucosidase to the lysosomes. However, the early processing steps in which the 110-kDa precursor is converted to the 95-kDa intermediate form of the enzyme were delayed, a transient 105-kDa form was observed and the conversion of the 95-kDa intermediate form to the 76-kDa mature form of the enzyme was completely inhibited.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Biosynthesis and intracellular transport of alpha-glucosidase and cathepsin D in normal and mutant human fibroblasts. 390 6

The effects of two proteinase inhibitors, leupeptin and pepstatin on the development of 9.5-day rat conceptuses in vitro has been studied. All cultures were of 48 h duration and the inhibitors were present throughout the entire period. When pepstatin was added to the culture medium (5-25 micrograms/ml) conceptuses developed and grew to an extent that did not differ from untreated controls. However, leupeptin (1-4 micrograms/ml) caused severe growth retardation and abnormal development of conceptuses. The effects of the two inhibitors on the hydrolysis of 125I-labelled BSA and haemoglobin by homogenates of 10.5-day yolk sac indicated the biochemical basis for the differential toxic effects of the two inhibitors on development. Leupeptin was highly inhibitory of the degration of both substrates whereas pepstatin caused no inhibition of 125I-labelled BSA hydrolysis, and only a slight inhibition of haemoglobin hydrolysis. These observations demonstrate that cathepsin D, a lysosomal aspartic proteinase that is specifically inhibited by pepstatin is not involved in yolk-sac-mediated protein utilization by early organogenesis-phase conceptuses and that lysosomal cysteine proteinases, specifically inhibited by leupeptin, are of paramount importance in this yolk sac function.
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PMID:Comparative effects of cathepsin inhibitors on rat embryonic development in vitro. Evidence that cathepsin D is unimportant in the proteolytic function of yolk sac. 403 44

The activities of acid proteolytic enzymes were assayed in the liver and muscular tissues of mice (Mus musculus) 1, 6 and 24 hr after the administration of a protease inhibitor leupeptin (i.p., 15.5 mg/kg body wt). Leupeptin administration induced a strong inhibition of cathepsin B and a moderate inhibition of cathepsin C and acid autolytic rate in mouse liver 1 hr after injection. Thereafter the inhibition reduced and disappeared during 24 hr. The activity of cathepsin D was increased in liver 6 and 24 hr after injection. The activity of beta-glucuronidase was not affected by the leupeptin treatment. The administration of leupeptin did not affect the rate of acid autolysis and the activities of cathepsin C and D in cardiac and skeletal muscles. A slight increase in cathepsin B activity was observed 1 hr after leupeptin treatment in calf muscles. The cause of both tissue and enzyme specific changes after leupeptin treatment is discussed.
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PMID:Acid proteolytic activities in mouse liver and muscle tissues after treatment with protease inhibitor leupeptin. 614 85

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

Degradation of metallothionein (MT) from rat liver was examined. Degradation of apo-MT by liver homogenate was greater than that by cytosol. At pH 5.5, degradation by homogenate was more than that at pH 7.2. These findings suggest that proteases that function at acidic pH are probably involved in MT degradation. Because lysosomes are the principal subcellular organelles that contain acid proteases (cathepsins), we compared the degradation of apo-MT by lysosomes and cytosol. Apo-MT was degraded about 400 times faster by lysosomal fraction than by cytosolic fraction. To determine the relative importance of different cathepsins, we used different inhibitors. Leupeptin, which inhibits cathepsins B and L, inhibited the degradation of apo-MT by 80%, implying that cathepsins B and/or L might be very important in the intracellular turnover of MT. Cathepsin D appeared to be the least significant, because apo-MT degradation was reduced by about 20% by inhibiting cathepsin D. When we extended this study with purified cathepsins, we obtained the same answer, i.e., the ability of different cathepsins to degrade apo-MT was in the following order: cathepsin B >> cathepsin C > cathepsin D. While apo-MT was susceptible to degradation, ZnMT and CdMT were highly resistant to degradation. Coincubation of ZnMT or CdMT with either lysosomal extract or purified cathepsins did not result in any appreciable degradation even after 16 hr. However, longer incubations did result in some degradation, especially by purified cathepsin B. Interestingly, CdMT degraded little faster than ZnMT by both lysosomal extract as well as purified cathepsin B.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:In vitro and in vivo studies on the degradation of metallothionein. 784 89

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