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:2.7.7.48 (transcriptase)
9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vascular endothelial growth factor (VEGF) is involved in both development and progression of several epithelial tumours, but its role in hepatocellular carcinoma (HCC) is unclear. Assessment of liver and blood levels of VEGF may provide further insights on angiogenesis in HCC. Tissue mRNA of VEGF-165, VEGF-189 and their receptor KDR was assessed by a semi-quantitative retro-transcriptase polymerase chain reaction, and expressed as target transcript/beta-actin ratio, in 29 patients with HCC, 26 with cirrhosis and 15 with chronic hepatitis. VEGF-165 was also measured by ELISA in plasma samples obtained from both hepatic and femoral veins in additional 58 patients, including 15 with HCC. The liver expression of mRNA of VEGF-165, VEGF-189 and KDR was higher in HCC than in chronic liver diseases (1.54 +/- 0.89 vs 0.62 +/- 0.47, P < 0.0001; 1.09 +/- 0.65 vs 0.64 +/- 0.54, P = 0.003; 1.30 +/- 1.09 vs 0.69 +/- 0.72, P = 0.014). VEGF-165 was higher in HCC tissue than in extra-tumoural tissues (1.44 +/- 0.31 vs 1.03 +/- 0.21, P = 0.0009) and in the cirrhotic tissue of HCC patients than in HCC-free cirrhosis (1.03 +/- 0.23 vs 0.45 +/- 0.45, P = 0.0002). Tissue VEGF-189 mRNA inversely correlated with tumour size and degree of tumour cell proliferation. The hepatic and femoral vein levels of VEGF-165 protein were significantly higher in HCC patients than in cirrhotic patients (66.7 +/- 57.1 vs 24.2 +/- 16.4 pg/mL, P = 0.0001 and 37.1 +/- 42.2 vs 13.5 +/- 9.6 pg/mL, P = 0.001). There was a gradient of VEGF-165 between hepatic and femoral veins in both HCC and cirrhosis. In conclusion, VEGF appears to be involved in the development of HCC and it could be a predictor of HCC development in patients with cirrhosis.
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PMID:Increased expression of vascular endothelial growth factor in small hepatocellular carcinoma. 1724 53

The therapy for chronic hepatitis C (CH-C) started with interferon (IFN) monotherapy in the early 1990s and this therapy was considered effective in about 10% of cases. The present standard therapy of pegylated IFN with ribavirin achieves a sustained virologic response in about 50% of patients. However, about half of the CH-C patients are still at risk of fatal liver cirrhosis and hepatocellular carcinoma. The other significant event in hepatitis C virus (HCV) research has been the development of a cell culture system. The subgenomic replicon system enables robust HCV RNA replication in hepatoma cells. And recently, the complete life cycle of HCV has been achieved using a genotype 2a strain, JFH1. These hallmarks have provided much information about the mechanisms of HCV replication, including information on the host molecules required for the replication. Anti-HCV reagents targeting HCV proteins have been developed, and some of them are now in clinical trials. However, the RNA-dependent RNA polymerase frequently causes mutations in the HCV genome, which lead to the emergence of drug-resistant HCV mutants. Some of the cellular proteins essential for HCV RNA replication have already been discovered using the HCV cell culture system. These host molecules are also candidate targets for antivirals. Here, we describe the recent progress regarding the anti-HCV reagents targeting host metabolism.
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PMID:Modulation of host metabolism as a target of new antivirals. 1789 52

Hepatitis C virus (HCV) is a positive-strand RNA virus that frequently causes persistent infections and is uniquely associated with the development of hepatocellular carcinoma. While the mechanism(s) by which the virus promotes cancer are poorly defined, previous studies indicate that the HCV RNA-dependent RNA polymerase, nonstructural protein 5B (NS5B), forms a complex with the retinoblastoma tumor suppressor protein (pRb), targeting it for degradation, activating E2F-responsive promoters, and stimulating cellular proliferation. Here, we describe the mechanism underlying pRb regulation by HCV and its relevance to HCV infection. We show that the abundance of pRb is strongly downregulated, and its normal nuclear localization altered to include a major cytoplasmic component, following infection of cultured hepatoma cells with either genotype 1a or 2a HCV. We further demonstrate that this is due to NS5B-dependent ubiquitination of pRb and its subsequent degradation via the proteasome. The NS5B-dependent ubiquitination of pRb requires the ubiquitin ligase activity of E6-associated protein (E6AP), as pRb abundance was restored by siRNA knockdown of E6AP or overexpression of a dominant-negative E6AP mutant in cells containing HCV RNA replicons. E6AP also forms a complex with pRb in an NS5B-dependent manner. These findings suggest a novel mechanism for the regulation of pRb in which the HCV NS5B protein traps pRb in the cytoplasm, and subsequently recruits E6AP to this complex in a process that leads to the ubiquitination of pRb. The disruption of pRb/E2F regulatory pathways in cells infected with HCV is likely to promote hepatocellular proliferation and chromosomal instability, factors important for the development of liver cancer.
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PMID:Hepatitis C virus induces E6AP-dependent degradation of the retinoblastoma protein. 1790 5

Previous studies have suggested that histamine (HA) acts as an autocrine growth factor. We have explored the modulation of cell proliferation by HA using McA-RH7777 hepatoma cells. High L-histidine decarboxylase (HDC) expression and HA synthesis were found in McA-RH7777 cells. Whereas extracellular HA reached submicromolar concentrations, intracellular levels were very low, indicating that HA was secreted by the cells. McA-RH7777 cells also express H3-receptor (H3R) transcripts and proteins. Reverse transcriptase-polymerase chain reaction analysis detected only transcripts for the long isoform. Immunocytochemistry performed with a selective H3R antibody showed that most cells were immunoreactive. H3R binding sites (Bmax approximately 30 fmol/mg protein) were identified when [125I] iodoproxyfan binding was displaced by the agonist imetit. High-affinity binding also occurred at cytochrome P450 enzymes. This binding was not inhibited by HA, H3R agonists, or by a nonimidazole H3R antagonist but was displaced by imidazole H3R antagonists or by ketoconazole, a imidazole-containing cytochrome inhibitor. HA inhibited proliferation of McA-RH7777 hepatoma cells. The absence of uptake system, its much higher potency at H3Rs, and its low intracellular levels suggested that HA interacted with H3Rs rather than cytochromes. In agreement, both imidazole H3R antagonists, a nonimidazole H3R antagonist, and the HDC inhibitor alpha-monofluoromethyl histidine increased cell proliferation (up to approximately 60%), revealing a H3R-mediated inhibition by endogenous HA. Moreover, exogenous HA inhibited the increase induced by alpha-FMH or H3R antagonists with a nanomolar potency. In conclusion, our findings show that HA regulates proliferation of McA-RH7777 hepatoma cells by interacting with autoinhibitory H3Rs.
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PMID:Autoregulation of McA-RH7777 hepatoma cell proliferation by histamine H3 receptors. 1847 84

HCV-796 selectively inhibits hepatitis C virus (HCV) NS5B RNA-dependent RNA polymerase. In hepatoma cells containing a genotype 1b HCV replicon, HCV-796 reduced HCV RNA levels by 3 to 4 log(10) HCV copies/mug total RNA (the concentration of the compound that inhibited 50% of the HCV RNA level was 9 nM). Cells bearing replicon variants with reduced susceptibility to HCV-796 were generated in the presence of HCV-796, followed by G418 selection. Sequence analysis of the NS5B gene derived from the replicon variants revealed several amino acid changes within 5 A of the drug-binding pocket. Specifically, mutations were observed at Leu314, Cys316, Ile363, Ser365, and Met414 of NS5B, which directly interact with HCV-796. The impacts of the amino acid substitutions on viral fitness and drug susceptibility were examined in recombinant replicons and NS5B enzymes with the single-amino-acid mutations. The replicon variants were 10- to 1,000-fold less efficient in forming colonies in cells than the wild-type replicon; the S365L variant failed to establish a stable cell line. Other variants (L314F, I363V, and M414V) had four- to ninefold-lower steady-state HCV RNA levels. Reduced binding affinity with HCV-796 was demonstrated in an enzyme harboring the C316Y mutation. The effects of these resistance mutations were structurally rationalized using X-ray crystallography data. While different levels of resistance to HCV-796 were observed in the replicon and enzyme variants, these variants retained their susceptibilities to pegylated interferon, ribavirin, and other HCV-specific inhibitors. The combined virological, biochemical, biophysical, and structural approaches revealed the mechanism of resistance in the variants selected by the potent polymerase inhibitor HCV-796.
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PMID:Molecular mechanism of hepatitis C virus replicon variants with reduced susceptibility to a benzofuran inhibitor, HCV-796. 1855 48

The research for hepatitis C virus (HCV) has long delayed by missing of in vitro culture system. Since the development of replicon system, a replication system of subgenomic HCV RNAs in a hepatoma cell line, has been reported, many virological and clinical findings have been discovered. Recently, in addition of subgenomic replication system, hepatitis C virus full-length RNA replication has been possible, and a few cell culture systems producing viral particles have been produced. These developments enabled us to investigate the life cycle or intracellular circumstance of HCV production. By screening of newly synthesized drugs with this replicon system, several possible medicines have been established and clinical researches are now running. Among them, VX950 and SCH503034 are nearest to clinical use. Other possible agents for reducing viral replication such as cyclophyllin inhibitors, inhibitors of sphingomyelin synthesis, HMG-CoA reductase inhibitors, or RNA-dependent RNA polymerase inhibitors have been also investigated. Furthermore the mechanism for development of hepatocellular carcinoma in the HCV infected liver has been vigorously studied using the HCV replicon system.
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PMID:Advances in genomic research on hepatitis C virus with a useful tool, replicon system. 1867 87

Hepatitis C virus (HCV) infects an estimated 170 million individuals worldwide and is associated with an increased incidence of liver fibrosis, cirrhosis, and hepatocellular carcinoma. Currently approved therapies to treat HCV infection consist of combinations of pegylated alpha interferon and ribavirin which result in a sustained viral response in 40 to 60% of patients. Efforts to develop improved therapies include the development of direct inhibitors of virally encoded enzymes such as the viral RNA-dependent RNA polymerase. A nucleoside analog, 2'-C-methyl-7-deaza-adenosine (MK-0608), has been shown to inhibit viral RNA replication in the subgenomic HCV genotype 1b replicon, with a 50% effective concentration (EC(50)) of 0.3 microM (EC(90) = 1.3 microM). To determine efficacy in vivo, MK-0608 was administered to HCV-infected chimpanzees, resulting in dose- and time-dependent decreases in plasma viral loads. In separate experiments, chimpanzees dosed for 7 days with MK-0608 at 0.2 and 2 mg per kg of body weight per day by intravenous administration experienced average reductions in viral load of 1.0 and >5 log(10) IU/ml, respectively. Two other HCV-infected chimpanzees received daily doses of 1 mg MK-0608 per kg via oral administration. After 37 days of oral dosing, one chimpanzee with a high starting viral load experienced a reduction in viral load of 4.6 log(10), and the viral load in the other chimpanzee fell below the limit of quantification (LOQ) of the HCV TaqMan assay (20 IU/ml). Importantly, viral load remained below the LOQ throughout the duration of dosing and for at least 12 days after dosing ended. The results demonstrate a robust antiviral effect on the administration of MK-0608 to HCV-infected chimpanzees.
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PMID:Robust antiviral efficacy upon administration of a nucleoside analog to hepatitis C virus-infected chimpanzees. 1907 52

This pilot phase II study was designed to determine the efficacy, toxicities, and biological activity of multiple hepatic arterial injections of recombinant adenovirus p53 (rAd-p53) and 5-fluorouracil (5-FU) after transcatheter arterial chemoembolization (TACE) when compared with TACE alone in patients with unresectable hepatocellular carcinoma (HCC). Forty-six patients with unresectable HCC were randomized in either group 1 [23 patients, multiple hepatic arterial injections of Ad-p53 (1x10 viral particles) and 5-FU (500-750 mg), after TACE] or group 2 (23 patients, TACE alone). In group 1, the number of Ad-p53/5-FU courses administered was 166 (median 7, range 3-12). In group 2, the number of TACE courses administered was 47 (median 2, range 1-3). Partial response and stable disease were 69.5% in group 1 and 65.2% in group 2. Times to progression were 9.6 months (range 2.1-21.7) in group 1 and 8.3 months (range 2.1-16.8) in group 2. Overall survivals were 12.8 months (range 2.7-26.2) in group 1 and 10.4 months (range 2.7-22.5) in group 2. Toxicities in both groups were generally mild and reversible. The most common Ad-p53-related toxicity was a transient fever. Specific p53 transgene expression was detected using reverse-transcriptase polymerase chain reaction in biopsied tumor tissues. Distribution studies revealed that the vector was detected in the plasma, but rarely in the gargle and urine. This study shows that multiple hepatic arterial injections of Ad-p53 and 5-FU after TACE can be active and safe as a treatment for patients with unresectable HCC.
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PMID:Multiple hepatic arterial injections of recombinant adenovirus p53 and 5-fluorouracil after transcatheter arterial chemoembolization for unresectable hepatocellular carcinoma: a pilot phase II trial. 1928 5

HCV is a ssRNA virus belonging to the Flaviviruses and is found worldwide worldwide in humans. Following primary infection, persistent infection develops in more than 85% of cases, which in up to 30% of cases, may progress to liver disease, cirrhosis and hepatocellular carcinoma. The virus presents a high degree of genetic variability owing to the combination of a lack of proofreading by the RNA-dependent RNA polymerase and a high level of viral replication. This genetic variability allows the classification of genotypes, subtypes, isolates and quasispecies to which epidemiological and pathogenetic significance may be associated. The features and biological implications of HCV variability and of quasispecies dynamics in infection transmission, mechanisms of chronicity and resistance to antiviral therapy are discussed.
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PMID:HCV genetic variability: from quasispecies evolution to genotype classification. 1932 19

The hepatitis C virus (HCV) core protein is a structural component of the nucleocapsid and has been shown to modulate cellular signaling pathways by interaction with various cellular proteins. In the present study, we investigated the role of HCV core protein in viral RNA replication. Immunoprecipitation experiments demonstrated that the core protein binds to the amino-terminal region of RNA-dependent RNA polymerase (RdRp), which encompasses the finger and palm domains. Direct interaction between HCV RdRp and core protein led to inhibition of RdRp RNA synthesis activity of in vitro. Furthermore, over-expression of core protein, but not its derivatives lacking the RdRp-interacting domain, suppressed HCV replication in a hepatoma cell line harboring an HCV subgenomic replicon RNA. Collectively, our results suggest that the core protein, through binding to RdRp and inhibiting its RNA synthesis activity, is a viral regulator of HCV RNA replication.
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PMID:Regulation of hepatitis C virus replication by the core protein through its interaction with viral RNA polymerase. 1950 Oct 52


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