Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.1 (chymotrypsin)
 10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tumor promoters, such as phorbol esters or hormones, cause many biological effects which may contribute to the expression of cancer. The mechanism of cancer expression may have a common theme. One method of learning about this common mechanism is the identification of chemicals that interfere with tumor development. That there is actually a common theme between very different substances, such as inflammatory skin tumor promoters and estradiol causing breast cancer, was shown by the fact that both skin and breast cancers are suppressed by the same agents, e.g., protease inhibitors and retinoids. In addition to skin and breast, protease inhibitors suppress colon, bladder, and liver cancers. The substances that crossed over in suppressing many varieties of cancer were found to inhibit oxygen radical formation by tumor promoter-activated neutrophils and ras oncogene expression in NIH 3T3 cells. Poly(ADP)ribose polymerase (PADPR polymerase) may serve as the connecting link between oxygen radicals that cause its activation and oncogene expression. PADPR polymerase is inhibited by retinoids, antioxidants, and some protease inhibitors. Benzamide, an inhibitor of PADPR polymerase, is also a chymotrypsin inhibitor which suppresses oxygen radical formation by tumor promoter-activated neutrophils. The inhibition of PADPR polymerase causes the expulsion of some oncogenes from NIH 3T3 cells at definite times after oncogene transfection. Further work is required to find what are the contributions of PADPR polymerase to tumor promotion and of its inhibitors to suppression of oncogene expression.
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PMID:Suppression of tumor promotion by inhibitors of poly(ADP)ribose formation. 210 95

Many tumor promoters are inflammatory agents that stimulate the formation of oxygen radicals (.O2-) and hydrogen peroxide (H2O2) in phagocytic neutrophils. The neutrophils use the oxygen radicals to kill bacteria, which are recognized by the cell membrane of phagocytic cells causing a signal to mount the oxygen response. The tumor promoter isolated from croton oil, 12-O-tetradecanoylphorbol-13-acetate (TPA), mimics the signal, causing an oxygen radical release that is intended to kill bacteria; instead, it injures cells in the host. Oxygen radicals cause single strand breaks in DNA and modify DNA bases. These damaging reactions appear to be related to tumor promotion, as three types of chemopreventive agents, retinoids, onion oil, and protease inhibitors, suppress the induction of oxygen radicals in phagocytic neutrophils and suppress tumor promotion in skin cancer in mice. Protease inhibitors also suppress breast and colon cancers in mice. Protease inhibitors capable of inhibiting chymotrypsin show a greater suppression of the oxygen effect and are better suppressors of tumor promotion. In addition, oxygen radicals may be one of the many agents that cause activation of oncogenes. Since retinoids and protease inhibitors suppress the expression of the ras oncogene in NIH 3T3 cells, NIH 3T3 cells may serve as a relatively facile model for finding and measuring chemopreventive agents that interfere with the carcinogenic process.
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PMID:Protease inhibitors interfere with the necessary factors of carcinogenesis. 266 86

The polyprotein encoded by a single open reading frame of hepatitis C virus (HCV) is processed by host- and virus-encoded proteases. The viral protease NS3 is responsible for the cleavage of at least four sites (NS3/4A, NS4A/4B, NS4B/5A, and NS5A/5B junctions) in the nonstructural protein region. To characterize the protease function of NS3 and NS4 on various target sites, efficient cis- and trans-cleavage assay systems were developed by using in vitro transcription and translation. Deletion of the C-terminal two-thirds from NS3 in an NS3-NS4A-4B polypeptide (NS3 delta C-4A-4B) hampered cleavage of the NS3/4A junction but not that of the NS4A/4B junction. As a consequence, expression of NS3 delta C-4A-4B containing an internal deletion of NS3 results in an NS3 delta C-4A fusion protein. NS3 delta C-4A shows very efficient and specific trans-cleavage activity at NS4A/4B, NS4B/5A, and NS5A/5B junctions. In addition, the biochemical properties of HCV NS3 delta C-4A were further elucidated by adding known protease inhibitors in trans-cleavage reactions. The HCV protease NS3-4A is inhibited by chymotrypsin-specific inhibitors N-tosyl-L-phenylalanine chloromethyl ketone (TPCK), chymostatin, and Pefabloc SC but not by trypsin-like protease inhibitors antipain, leupeptin, and N-alpha-p-tosyl-L-lysine chloromethyl ketone (TLCK) or by the protease inhibitors E-64, bestatin, pepstatin, and phosphoramidon. This finding strongly suggests that HCV protease NS3-4A is a chymotrypsin-like serine protease.
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PMID:NS3-4A of hepatitis C virus is a chymotrypsin-like protease. 788 3

In a series of 22 pancreatic acinar cell carcinomas, including two acinar cystadenocarcinomas, cellular differentiation was analyzed by immunocytochemistry and electron microscopy. In addition, overexpression of p53 protein and Ki-ras codon 12 mutation was studied. Four of the 20 noncystic acinar cell carcinomas showed a pure acinar pattern, nine an acinar-solid, and seven a solid pattern. All tumors stained for at least one of the following pancreatic acinar markers: trypsin (21 of 22), lipase (19 of 22), chymotrypsin (13 of 22), phospholipase A2 (nine of 22), and pancreatic stone protein (19 of 22). One-third of the tumors expressed neuroendocrine markers (synaptophysin, eight of 22; chromogranin A, six of 21) and duct cell markers (CA19.9, nine of 21; B72.3, six of 21). Cellular coexpression of trypsin and synaptophysin was demonstrated in one tumor. Electron microscopy revealed zymogen granules (nine of nine). In only one of 16 tumors a Ki-ras mutation at codon 12 was found, whereas in none of 19 tumors could overexpression of p53 protein be demonstrated. The results suggest that acinar cell carcinomas show obvious capacity to differentiate into several directions, but nevertheless constitute an entity different from ductal adenocarcinomas or endocrine tumors.
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PMID:Pancreatic acinar cell carcinoma. An analysis of cell lineage markers, p53 expression, and Ki-ras mutation. 836 71

This study evaluated the inhibitory effects of thiazolidine derivatives on hepatitis C virus (HCV) protease and other human serine proteases. The inhibition efficacy was tested with a reversed-phase high-performance liquid chromatography (HPLC) assay system using a NS3-NS4A fusion protein as the HCV protease and a synthetic peptide substrate that mimics the NS5A-5B junction. Nine thiazolidine derivatives showed more than 50% inhibition at 50 microg/ml. The most potent derivative was RD4-6250, with 50% inhibition at a concentration of 2.3 microg/ml; this concentration was lower than those of other protease inhibitors reported previously. The most selective derivative was RD4-6205, with 50% inhibition at a concentration of 6.4 microg/ml, a lower concentration than those on other serine proteases (chymotrypsin, trypsin, plasmin, and elastase). These results suggest that the RD4-6205 skeleton is an important structure for inhibitory activity on the HCV protease NS3-NS4A.
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PMID:Novel hepatitis C virus protease inhibitors: thiazolidine derivatives. 929 67

The solution structure of the hepatitis C virus (BK strain) NS3 protein N-terminal domain (186 residues) has been solved by NMR spectroscopy. The protein is a serine protease with a chymotrypsin-type fold, and is involved in the maturation of the viral polyprotein. Despite the knowledge that its activity is enhanced by the action of a viral protein cofactor, NS4A, the mechanism of activation is not yet clear. The analysis of the folding in solution and the differences from the crystallographic structures allow the formulation of a model in which, in addition to the NS4A cofactor, the substrate plays an important role in the activation of the catalytic mechanism. A unique structural feature is the presence of a zinc-binding site exposed on the surface, subject to a slow conformational exchange process.
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PMID:The solution structure of the N-terminal proteinase domain of the hepatitis C virus (HCV) NS3 protein provides new insights into its activation and catalytic mechanism. 1036 11

Arylalkylidene rhodanines 2(a-d) inhibit HCV NS3 protease at moderate concentrations. They are better inhibitors of other serine proteases such as chymotrypsin and plasmin. However, the selectivity of arylmethyliden e rhodanines (8a, 9a) with bulkier and more hydrophobic functional groups increases by 13- and 25-fold towards HCV NS3 protease respectively.
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PMID:Arylalkylidene rhodanine with bulky and hydrophobic functional group as selective HCV NS3 protease inhibitor. 1120 78

Persistent infection with hepatitis C virus (HCV) may lead to hepatocellular carcinoma (HCC). It has been suggested that HCV-encoded proteins are directly involved in the tumorigenic process. The HCV nonstructural protein NS3 has been identified as a virus-encoded serine protease. To study whether HCV NS3 has oncogenic activity, nontumorigenic rat fibroblast (RF) cells were stably transfected with an expression vector containing cDNA for the NS3 serine protease (nucleotides 3356-4080). The NS3 serine protease activity was determined in the transfected cells. The transfected cells grew rapidly and proliferated serum independently, lost contact inhibition, grew anchorage independently in soft agar and induced significant tumour formation in nude mice. Cells transfected with an expression vector containing a mutated NS3 serine protease (serine 139 to alanine at the catalytic site) showed no transforming abilities; their growth was dependent on serum and they did not grow anchorage independently in soft agar. Moreover, cells transfected with the NS3 serine protease and treated with the chymotrypsin inhibitors TPCK and PMSF (a serine protease inhibitor) lost their transforming feature. These results suggest that the NS3 serine protease of HCV is involved in cell transformation and that the ability to transform requires an active enzyme.
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PMID:Cell transformation induced by hepatitis C virus NS3 serine protease. 1126 29

Secretory leukocyte protease inhibitor (SLPI) inhibits chymotrypsin, trypsin, elastase, and cathepsin G. This protein also exhibits proliferative effects, although little is known about the molecular mechanisms underlying this activity. We have generated SLPI-ablated epithelial sublines by stably transfecting the Ishikawa human endometrial cell line with an antisense human SLPI RNA expression vector. We demonstrate a positive correlation between cellular SLPI production and proliferation. We further show that Ishikawa sublines expressing low to undetectable SLPI have correspondingly increased and decreased expression, respectively, of transforming growth factor-beta 1 and cyclin D1 genes, relative to parental cells. SLPI selectively increased cyclin D1 gene expression, with the effect occurring in part at the level of promoter activity. Cellular SLPI levels negatively influenced the anti-proliferative and pro-apoptotic insulin-like growth factor-binding protein-3 expression. We also identified lysyl oxidase, a phenotypic inhibitor of the ras oncogenic pathway and a tumor suppressor, as SLPI-repressed gene, whose expression is up-regulated by transforming growth factor-beta1. Our results suggest that SLPI acts at the node(s) of at least three major interacting growth inhibitory pathways. Because expression of SLPI is generally high in epithelial cells exhibiting abnormal proliferation such as in carcinomas, SLPI may define a novel pathway by which cellular growth is modulated.
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PMID:Secretory leukocyte protease inhibitor mediates proliferation of human endometrial epithelial cells by positive and negative regulation of growth-associated genes. 1202 69

A series of peptide boronic acids containing extended, hydrophobic P1 residues was prepared to probe the shallow, hydrophobic S1 region of HCV NS3 protease. The p-trifluoromethylphenethyl P1 substituent was identified as optimal with respect to inhibitor potency for NS3 and selectivity against elastase and chymotrypsin.
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PMID:P1 Phenethyl peptide boronic acid inhibitors of HCV NS3 protease. 1237 33


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