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:3.4.24.11 (CD10)
9,792 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The number of possible subsites of the rat liver cysteine proteinases cathepsin B and cathepsin H was determined in the N-terminal direction from the scissile bond. An elongation of the substrate peptide chain of up to four amino acid residues enhances the hydrolysis rate of both cathepsins. The greatest increase in activity was observed by elongation to the dipeptide substrate for cathepsin B and to the tetrapeptide substrate for cathepsin H. Both proteinases discriminate proline from their subsites S1 and S2, but accept it well in S3. A quantitative distinction between the endopeptidase and the peptidyl dipeptidase activity of cathepsin B was feasible by using two model peptides: (Formula: see text) (Z = benzyloxycarbonyl; X = NH2 or OH; the arrow shows the cleavage site). Whereas the peptide acid, representing the peptidyl dipeptidase substrate, was hydrolysed by cathepsin B twice as fast as the peptide amide as an endopeptidase substrate, cathepsin H clearly had a preference for the amide substrate.
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PMID:Enzyme-substrate interactions in the hydrolysis of peptides by cathepsins B and H from rat liver. 366 63

The activities of the lysosomal endopeptidase cathepsin B (cath B; CZB-Ala-Arg-Arg-MNA as substrate) and the lysosomal exopeptidase dipeptidylpeptidase II (DAP II; Lys-Ala-2NA as substrate) were fluorometrically determined in the renal homogenate of normal and experimental (castration followed by a 14-day treatment with estradiol and testosterone) rats of both sexes. In addition, methodological investigations of the renal homogenate were performed in order to differentiate cath B from other proteinases. These showed that cath-B activity was highest at around pH 6, was strongly inhibited by 4-hydroxymercuribenzoate and leupeptin, and was activated by dithiothreitol. Trypsin-like activities were not demonstrable under the used incubation conditions. The animal experiments showed that renal cath-B activities (1) were significantly higher in females than in males, (2) increased significantly in males and decreased significantly in females after castration (no significant difference between both sexes), (3) decreased in female and male castrates after treatment with testosterone and increased strongly after treatment with estradiol, and (4) showed an activity pattern similar to that of DAP II. The results are discussed in relation to the sex-dependent and sex-hormone-dependent proteinuria of rats. It is suggested that there is a correlation between protein catabolism in the kidney and proteinuria, i.e. high lysosomal proteinase activities correspond with low proteinuria.
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PMID:Renal cathepsin-B activities in rats after castration and treatment with sex hormones. 374 98

The action of three previously isolated electrophoretically homogeneous brain proteinases--cathepsin B (EC 3.4.22.1), cathepsin D (EC 3.4.23.5), and high-molecular-weight aspartic proteinase (Mr = 90K; EC 3.4.23.-)--on human angiotensins I and II has been investigated. The products of enzymatic hydrolysis have been identified by thin-layer chromatography on Silufol plates using authentic standards and by N-terminal amino acid residue analysis using a dansyl chloride method. Cathepsin D and high-molecular-weight aspartic proteinase did not split angiotensin I or angiotensin II. Cathepsin B hydrolyzed angiotensin I via a dipeptidyl carboxypeptidase mechanism removing His-Leu to form angiotensin II, and it degraded angiotensin II as an endopeptidase at the Val3-Tyr4 bond. Cathepsin B did not split off His-Leu from Z-Phe-His-Leu. Brain cathepsin B may have a role in the generation and degradation of angiotensin II in physiological conditions.
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PMID:Action of brain cathepsin B, cathepsin D, and high-molecular-weight aspartic proteinase on angiotensins I and II. 391 Oct 93

The fractional rate of protein synthesis has been measured in vivo, and compared in the whole body and 12 major individual tissues of foetal and senescent rats. This synthetic rate was found to decrease in most tissues with increasing animal age. The rate of protein degradation was also determined and compared with cathepsin B activity within each tissue; both protein turnover and the endopeptidase activity decreased with ageing. Age-related changes in each tissue's contributions to the protein mass and synthetic rates of the whole animal are also summarized and related to developmental variations in physiological function.
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PMID:Protein turnover and cathepsin B activity in several individual tissues of foetal and senescent rats. 409 43

The distribution of proteases potentially reactive with peptide sequences containing pairs of basic amino acids or single basic amino acids was studied in subcellular fractions of a transplantable rat insulinoma using the affinity probes 125I-Tyr-Ala-Lys- ArgCH2Cl and 125I-Tyr-Ala-norleucine- ArgCH2Cl . Both probes labeled predominantly proteins of Mr = 39,000, 31,500, and 25,000. The Mr = 25,000 component appeared to be of lysosomal origin, while the Mr = 39,000 and 31,500 proteins were present in both the lysosomes and insulin granules. The Mr = 39,000 and 31,500 proteins were identified as precursor/product forms of the cysteine protease cathepsin B, while assays performed with fluorigenic peptide substrates suggested that the Mr = 25,000 protein was probably cathepsin L and/or H. The greater reactivity of the Mr = 39,000 form with the dibasic probe suggests that the relative proportions of the Mr = 39,000 and 31,500 forms of cathepsin B in different organelles may determine the extent to which the enzyme expresses activity as a specific (prohormone processing) endopeptidase or a more general (degradative) peptidase.
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PMID:Cathepsin B-related proteases in the insulin secretory granule. 632 60

Rabbit thyroids contain cathepsin D (CD) and several thiol endopeptidases including cathepsin B and three newly described enzymes (cathepsins 180K, 110K, and 45K). The present paper assesses the relative physiological importance of these enzymes in thyroglobulin degradation in rabbits. Thyroidal thiol endopeptidase [thiol thyroglobulin hydrolase (thiol TgH)] activity increased in the absence of changes in CD activity in animals treated with 10 U bovine TSH. Peak enzyme activity occurred 24 h after injection of hormone. After 20 U bovine TSH, thiol endopeptidase activity increased by approximately 100%, whereas CD increased by 50%. The increase in thiol enzyme activity was attributed both to cathepsin B and to the other thiol endopeptidases. The lysosomal acid hydrolases acid phosphatase and dipeptidyl peptidase II were unaffected by TSH at either dose level. Thiol TgH activity, but not CD activity, was decreased in thyroids of rabbits treated with T4 [5 micrograms/(100 g BW X day)] for 1 week. All thyroidal acid hydrolases examined were suppressed in animals receiving T4 for 3 weeks. Thiol TgH activity was localized primarily to a lysosome-enriched fraction of thyroid homogenates. Our results suggest that the thiol proteases probably are the most important endopeptidases in thyroglobulin hydrolysis in vivo and that their activities are influenced by TSH.
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PMID:Stimulation of thyroidal thiol endopeptidases by thyrotropin. 636 Jun 67

The activities of a number of peptide-degrading enzymes were compared in homogenates of GH3 cells and rat anterior pituitaries. The enzymes studied were prolyl endopeptidase (EC 3.4.21.26), a soluble metalloendopeptidase, pyroglutamyl peptide hydrolase (EC 3.4.11.8), a multicatalytic protease complex, cathepsin B (EC 3.4.22.1), cathepsin D (EC 3.4.23.5), aminopeptidase (EC 3.4.11.2), and a membrane-bound neutral metalloendopeptidase (EC 3.4.24.11). Specific substrates were used to measure the activities, and active-site-directed inhibitors were used to verify the identities of the enzymes studied. Of the two lysosomal enzymes studied, cathepsin B, the enzyme with the highest activity in both preparations, had 5 times the activity in GH3 cell homogenates as in anterior pituitary homogenates. Cathespin D had a somewhat higher activity in the anterior pituitary homogenates than in the GH3 cell homogenates. Soluble metalloendopeptidase and prolyl endopeptidase, both cytoplasmic enzymes, had about twice the activity in GH3 cell homogenates as in anterior pituitary homogenates. Membrane-bound neutral metalloendopeptidase in the GH3 cell homogenates had 25% of the activity of the anterior pituitary homogenates. Of the two TRH-degrading enzymes, the activity of prolyl endopeptidase in GH3 cell homogenates was about 25 times higher than that of pyroglutamyl peptide hydrolase. Since the secretory function of the pituitary is in part controlled by neuropeptides, the knowledge of the enzyme profiles of the GH3 cells and the anterior pituitary should be of value in studying the metabolism of neuropeptides and peptide hormones in these systems.
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PMID:Peptide-degrading enzymatic activities in GH3 cells and rat anterior pituitary homogenates. 636 4

Synthetic substrates are often used to measure the activity of proteolytic enzymes. We have investigated the activities which cleave synthetic substrates such as alpha-N-benzyloxycarbonyl-Arg-Arg-beta-naphthylamide, for which the lysosomal proteinase cathepsin B has a high affinity, in sera from normal individuals, pregnant women and patients with breast cancer. As reported by other workers, activities against these substrates were elevated during pregnancy. Naphthylamine release, however, was shown to be the result of the combined action of two enzymes. The substrate is first cleaved by an endopeptidase to yield alpha-N-benzyloxycarbonyl-Arg and the aminopeptidase substrate Arg-beta-naphthylamide, which is then cleaved by serum aminopeptidases, particularly oxytocinase. A similar mechanism of cleavage was also found in the sera of breast cancer patients, where the endopeptidase catalyzing the first reaction was characterized as plasma kallikrein and the second reaction was carried out by serum leucine aminopeptidase. In no serum sample was there evidence for true cathepsin B activity.
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PMID:The combined action of two enzymes in human serum can mimic the activity of cathepsin B. 638 Aug 24

Cathepsin B was purified about 11,000-fold from monkey skeletal muscle by ammonium sulfate fractionation and sequential column chromatographies monitored by assaying of Z-Phe-Arg-MCA hydrolase activity. The purified enzyme gave a single protein band on SDS-polyacrylamide gel electrophoresis, and its molecular weight was estimated to be 24,000 by gel filtration. It had a pH optimum of 6.5, required a thiol reducing agent for activation, and was inhibited by various thiol protease inhibitors. These properties were similar to those reported for cathepsins B from other sources. Although the enzyme scarcely hydrolyzed ordinary proteins, such as casein, hemoglobin, and bovine serum albumin, it degraded myosin and actin among various myofibrillar proteins. These results strongly suggested that skeletal muscle cathepsin B may participate in the degradation of muscle proteins in vivo. In addition, cathepsin B was shown to hydrolyze various neuropeptides such as Leu-enkephalin, beta-neoendorphin, alpha-neoendorphin, dynorphin(1-13), and substance P. It appeared to act on these peptides mainly as a dipeptidyl carboxypeptidase, although not so rigorously, presumably due to its endopeptidase activity.
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PMID:Purification and characterization of cathepsin B from monkey skeletal muscle. 672 39

The unknown enzymatic mechanism of enhanced protein breakdown in steroid myopathy was studied in functionally and biochemically different muscles of rabbits treated with dexamethasone for three weeks. After glucocorticoid administration the fast-twitch glycolytic semimembraneous muscle of treated animals was atrophied, whereas the weight of the slow-twitch oxidative soleus muscle was not altered. The specific activity of the lysosomal endo- and exopeptidases (cathepsin D, E, B and L, lysosomal carboxypeptidase A and dipeptidylpeptidase I) was increased about 2-fold in the atrophied white muscle. The activity of the cytosol enzyme Ca++-activated neutral proteinase was also elevated, whereas that of the other cytosol endopeptidase, chymotrypsin-like enzyme, was unaltered. The level of alanine aminopeptidase was only slightly increased. On the other hand, there were no unequivocal changes in protease activity in the soleus muscle. These findings are in agreement with the known differences in glucocorticoid-sensitivity of the various muscles. Our results suggest that the lysosomal proteolytic system and the Ca++-activated neutral proteinase may play an important role in the glucocorticoid-induced intracellular protein catabolism in muscle. The inhibitor capacities of cathepsin B and trypsin detectable in muscle cytosol were not altered after steroid treatment. Consequently, the increase in cathepsin B activity was not due to the loss of its inhibitor.
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PMID:Proteases and proteinase inhibitors in experimental glucocorticosteroid myopathy. 676 81


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