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: UMLS:C0019204 (hepatocellular carcinoma)
71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We describe the simple and rapid enzyme immunoassay of protein C in human plasma with use of a Cobas Fara centrifugal analyzer. The antibody, labeled with horseradish peroxidase, is reacted with antigen (protein C) for 15 min. The peroxidase activity of the resulting antigen-antibody conjugate is measured at 500 nm for 5 min in the presence of excess H2O2, phenol, and 4-aminoantipyrine, as compared with that of free conjugates. Results are calculated from a stored standard curve and expressed as a percentage of the value determined for a pooled specimen of normal adult plasma. The standard curve is linear from 0% to 200%. The CV is generally less than 4% for different concentrations of protein C. In liver cirrhosis, hepatocellular carcinoma, therapy with warfarin, thrombosis, and disseminated intravascular coagulation, protein C concentrations are about 40-70% of normal. Results obtained with the present homogeneous enzyme immunoassay correlated well with those by enzyme-labeled immunosorbent assay (r = 0.97).
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PMID:Protein C in human plasma determined by homogeneous enzyme immunoassay with use of a centrifugal analyzer. 304 78

Several pro-inflammatory cytokines have been shown to be important in the modulation of the procoagulant response. However, what role these cytokines may have in the regulation of coagulation inhibitors is poorly understood. While the hepatocyte is a primary site of synthesis for the anticoagulant protein C and S, it is also a major target cell for the proinflammatory cytokine, IL-6. We have found that stimulation of HepG-2 hepatoma cells with IL-6 (5 ng/ ml) significantly increased the production of the anticoagulant cofactor, protein S, in both a time and dose dependent fashion. This increase was seen at both the RNA and protein level. A mouse monoclonal neutralizing antibody to human IL-6 suppressed the IL-6 effect in a concentration dependent fashion. IL-6 also increased the release of the C4b-binding protein but had no effect on protein C production. When combined with either dexamethasone or soluble IL-6 receptor, the IL-6 response was significantly enhanced. Oncostatin M, a functionally related cytokine, had a similar effect while other related cytokines, IL-11 and leukemia inhibitory factor, only had a marginal effect. IL-1, TGF-beta, and TNF-alpha had no significant effect on protein S production. These results indicate that IL-6 may play an important regulatory role in the anti-coagulant pathway.
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PMID:IL-6 upregulates protein S expression in the HepG-2 hepatoma cells. 748 9

Thrombomodulin (TM) converts thrombin from procoagulant into anticoagulant protein to activate protein C. Thrombin also plays an important role in the metastatic process of cancer cells. We performed an immunohistochemical and clinicopathological study of TM in 141 cases with resected hepatocellular carcinoma (HCC) measuring less than 6 cm in diameter. Twenty-five specimens (17.73%) stained positive for TM. TM was found in the cytoplasm and surface of cancer cells. The clinicopathological findings according to the positive of TM are examined in HCC. The preoperative plasma TM level of the patients with tissue that stained positive for TM was significantly higher than that of the patients with negative results; for the postoperative TM level, there were no differences between them. In addition, the frequencies of intrahepatic metastasis, tumor thrombus in the portal vein, and capsular infiltration were significantly lower in patients whose tissue stained positive for TM than in patients whose tissue stained negative for TM. The recurrence freedom rate was significantly higher in patients whose tissue stained positive for TM than patients whose tissue stained negative for TM. Thus, TM-producing HCC shows a slow intrahepatic spread. Therefore, these findings suggest that TM may inhibit the adhesion of tumor cells to the portal vein because of anticoagulant activity and thus prevent the spread of intrahepatic metastasis.
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PMID:Thrombomodulin inhibits intrahepatic spread in human hepatocellular carcinoma. 753 12

The haplotype frequencies of two closely linked diallelic polymorphisms in the protein C(PROC) gene promoter were determined in the British population. In principle, differences in transcription efficiency between PROC promoter haplotypes could represent an additional risk factor in determining whether or not an individual already predisposed to venous thrombosis will come to clinical attention. In order to explore this postulate, transient transfection of human hepatoma cells with PROC promoter-luciferase reporter gene constructs was performed in vitro. In HepG2 cells, the T.....A haplotype exhibited at least a two-fold higher transcription efficiency than the C.....G haplotype. A sample of British protein C deficiency patients with recurrent venous thrombosis was then allelotyped by a combination of oligonucleotide discriminant hybridization and DNA sequencing. The frequency of the low expressing C.....G haplotype was found to be slightly yet not significantly higher in these patients (0.43) than in controls (0.35).
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PMID:Polymorphic variation in the human protein C (PROC) gene promoter can influence transcriptional efficiency in vitro. 754 79

Membranous obstruction of the inferior vena cava is a rare disease. The etiology of the membrane is believed to be thrombotic or congenital. In three of 11 siblings from a single family, symptoms of membranous obstruction of the inferior vena cava developed during early adult life. All had signs of more long-standing disease, as judged by the presence of collaterals, cirrhosis and, in one case, hepatocellular carcinoma. On family screening no further cases of membranous obstruction of the inferior vena cava were found. There was also no evidence of inherited defects in the natural coagulation inhibitors (protein C, protein S and antithrombin III) and plasminogen deficiency. This familial occurrence of membranous obstruction of the inferior vena cava supports a congenital etiology, although a thrombotic etiology cannot be totally excluded.
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PMID:Familial occurrence of membranous obstruction of the inferior vena cava: arguments in favor of a congenital etiology. 766 59

Hepatitis C virus (HCV) is the major cause of transfusion-acquired non-A, non-B hepatitis. HCV is an enveloped positive-sense RNA virus which has been classified as a new genus in the flavivirus family. Like the other two genera in this family, the flaviviruses and the pestiviruses, HCV polypeptides appear to be produced by translation of a long open reading frame and subsequent proteolytic processing of this polyprotein. In this study, a cDNA clone encompassing the long open reading frame of the HCV H strain (3,011 amino acid residues) has been assembled and sequenced. This clone and various truncated derivatives were used in vaccinia virus transient-expression assays to map HCV-encoded polypeptides and to study HCV polyprotein processing. HCV polyproteins and cleavage products were identified by using convalescent human sera and a panel of region-specific polyclonal rabbit antisera. Similar results were obtained for several mammalian cell lines examined, including the human HepG2 hepatoma line. The data indicate that at least nine polypeptides are produced by cleavage of the HCV H strain polyprotein. Putative structural proteins, located in the N-terminal one-fourth of the polyprotein, include the capsid protein C (21 kDa) followed by two possible virion envelope proteins, E1 (31 kDa) and E2 (70 kDa), which are heavily modified by N-linked glycosylation. The remainder of the polyprotein probably encodes nonstructural proteins including NS2 (23 kDa), NS3 (70 kDa), NS4A (8 kDa), NS4B (27 kDa), NS5A (58 kDa), and NS5B (68 kDa). An 82- to 88-kDa glycoprotein which reacted with both E2 and NS2-specific HCV antisera was also identified (called E2-NS2). Preliminary results suggest that a fraction of E1 is associated with E2 and E2-NS2 via disulfide linkages.
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PMID:Expression and identification of hepatitis C virus polyprotein cleavage products. 767 46

A heterozygous T-->C transition was detected in the putative promoter region of the protein C (PROC) gene in a patient with type I protein C deficiency and a history of recurrent venous thrombosis. This mutation occurred 14 bp upstream of the transcription initiation site and within a sequence strongly homologous to the consensus binding site for the liver-enriched transcription factor, hepatocyte nuclear factor 1 (HNF-1). Transfection experiments demonstrated that a CAT reporter gene construct containing 626 bp of the putative PROC gene promoter was capable of driving CAT expression in HepG2 hepatoma cells. Levels of CAT expression from constructs bearing the mutation were found to be drastically reduced by comparison with the wild-type, consistent with the reduced plasma protein C antigen levels observed in the patient. Gel retardation and cotransfection experiments demonstrated that the mutation abolished both the binding and the transactivating ability of HNF-1 observed with the wild-type PROC gene promoter. Further, the ability of the mutation to disrupt HNF-1 binding appears to be a function not only of the nature of the nucleotide substitution and its position within the recognition sequence, but also of the relative affinity of the wild-type binding site for HNF-1. This analysis is therefore indicative of a vital role for HNF-1 in the expression of the PROC gene in vivo. Taken together with the identification of a human hepatoma cell line which contains HNF-1 but which does not express protein C, these findings are consistent with the view that HNF-1 is necessary although not sufficient for PROC gene expression in the liver.
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PMID:Disruption of a binding site for hepatocyte nuclear factor 1 in the protein C gene promoter is associated with hereditary thrombophilia. 788 11

C-reactive protein is a serum acute-phase reactant that increases several thousand-fold in concentration during inflammation in most mammals. However, mouse C-reactive protein is considered to be a minor acute-phase reactant, since its blood level increases only from approx. 0.1 to 1-2 micrograms/ml. A mouse genomic clone of approximately 5 kb was obtained to determine the molecular basis for the regulation of the expression of mouse C-reactive protein. Several cis-acting elements in the 5' flanking region that potentially regulate transcription were identified: two glucocorticoid-responsive elements, two CCAAT-enhancer-binding protein C (C/EBP) consensus elements that are required for the interleukin-1 responsiveness of some acute-phase reactant genes, an interleukin-6-responsive element, two hepatocyte nuclear factor-1 (HNF-1) elements and a single heat-shock element. Transfection of the hepatoma cell line Hep 3B.2 with a pCAT expression vector containing the 5' flanking sequence from -1083 to -3 bp from the transcriptional start site, and truncations of this sequence, localized elements that control the tissue-specific expression of mouse C-reactive protein to the two HNF-1 elements and a C/EBP, interleukin-1-responsive element located between -220 and -153, and -90 and -50 bp from the transcriptional start site. A constitutive nuclear protein from mouse-liver hepatocytes specifically binds to the HNF-1 elements. These findings explain the tissue-specific expression of the gene, as well as its limited expression during the acute-phase response.
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PMID:Cloning and tissue-specific expression of the gene for mouse C-reactive protein. 791 20

The B6C3F1 mouse is used worldwide to gauge the carcinogenic hazard posed by chemicals to humans. An assessment of the ability of this rodent model to predict human neoplasia requires an evaluation of similarities and differences in the genetics of tumor formation between these two species. We examined 142 spontaneous and chemically-induced liver tumors isolated from the B6C3F1 mouse for losses of heterozygosity (LOH) at 78 polymorphic loci and compared these results to genetic changes known to occur in human hepatocellular carcinoma. Approximately a third of the 142 mouse tumors exhibited LOH, suggesting that tumor suppressor gene inactivation may be involved in the formation of mouse liver tumors. Most of the LOH observed was restricted to seven chromosome sites and most of the tumors that underwent LOH lost alleles from only one of those seven sites. The relatively few losses seen in these mouse tumors distinguished them from clinical stage human tumors in that, in the mouse tumors, interstitial deletions appeared more frequently than losses of whole chromosomes. Only four mouse tumors lost a whole chromosome. LOH occurred at loci of the mouse genome syntenic to areas of the human genome known to harbor the Wilms', retinoblastoma, APC, MCC and DCC tumor suppressor genes; these genes have never been associated with hepatocellular carcinomas. Losses observed on chromosomes 5 and 8 (syntenic to human chromosomes 4 and 16) suggest tumor suppressor genes that are common to hepatocellular carcinomas from both species, while losses on chromosome 9 suggest involvement of a previously unidentified tumor suppressor gene.
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PMID:Loss of heterozygosity in spontaneous and chemically induced tumors of the B6C3F1 mouse. 805 44

Protein C inhibitor (PCI), a plasma serine protease inhibitor, neutralizes activated protein C, which plays an important role in the regulation of blood coagulation. We determined the organization of the gene coding for this inhibitor. A human genomic phage DNA library was screened using the 32P-labeled protein C inhibitor cDNA as a probe and a phage genomic clone that contained the full length of the inhibitor gene, including the 5'- and 3'-flanking region, was isolated. The gene was characterized by restriction enzyme mapping, Southern blotting and sequencing all the coding parts as well as the 5'- and 3'-flanking regions. The protein C inhibitor gene spanned about 13 kilobase pairs and consisted of 5 exons and 4 introns as do the genes for human alpha 1-antitrypsin, alpha 1-antichymotrypsin, heparin cofactor II and rat angiotensinogen. All exon-intron boundaries agreed with the GT-AG rule. The 5'-flanking region contained no TATAA or CCAAT sequences, but contained the putative Sp-1 and AP-2 binding sites in the 5'-upstream region, which indicated promoter activity in human hepatoma cell line, HepG2, using the luciferase gene as a reporter gene and the polyadenylation site in the 3'-downstream region. A transcription initiation site was identified by primer extension analysis using template human liver poly(A)RNA. The length of the non-coding exon I of this inhibitor gene was similar to those of the other serine protease inhibitors as described above. These findings suggest that the protein C inhibitor gene evolved from a common ancestor gene of these serine protease inhibitors.
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PMID:Gene organization of human protein C inhibitor, a member of SERPIN family proteins encoded in five exons. 814 99


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