UMLS:C0019204 - FACTA Search

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)

Hepatitis C virus (HCV) represents one of the major causes of acute and chronic hepatitis, cirrhosis, and hepatocellular carcinoma (HCC) around the world. Our knowledge of the life cycle of HCV, however, is limited. Current studies are hampered by the lack of a reproducible, high-level in vitro replication system of HCV. We sought to establish HCV replication in HepG2 cells by gene transfer of in vitro transcribed HCV RNA. In preliminary experiments, diethylaminoethyl-dextran led to more efficient gene transfer than cationic liposomes (lipofectin, lipofectamine, and DOTAP). Therefore, in subsequent experiments, HepG2 cells were transfected with full-length (9.6-kb) and near-full-length (9.4-kb) HCV RNA using diethylaminoethyl-dextran. Transfection with subgenomic HCV RNA and mock transfection were used as controls. Positive- and negative-strand HCV RNA sequences were detected by reverse transcription polymerase chain reaction (KT-PCR) for 60 days in the infectious HCV RNA transfected HepG2 cells. The presence of negative-strand HCV RNA, presumably representing replicative intermediates, was confirmed by ribonuclease protection assay. The intracellular levels of HCV RNA were measured by quantitative competitive RT-PCR from 10 to 50 days after transfection and were stable over this time period at moderately high levels (10(8) to 10(10) genomes per mg of total RNA). Expression of viral core and nonstructural proteins was detected in the cytoplasm of transfected cells by immunostaining. Virus-like particles measuring 50 to 60 nm in diameter were found by electron microscopy in cytoplasmic vesicles and conditioned media of the cells transfected with infectious HCV RNA but not in cells transfected with truncated HCV RNA. Culture supernatants of infectious HCV RNA transfected HepG2 cells were infectious for Daudi cells for three passages tested. The truncated HCV RNA lacking NS5 and 3' untranslated region (3' UTR) of HCV was replication incompetent. This is the first demonstration of HCV particles in HepG2 cells after transfection with infectious HCV RNA. We conclude that we have established a reproducible HCV replication system in HepG2 cells that can be used to study the life cycle of HCV and to test anti-HCV agents.
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PMID:Transfection of HepG2 cells with infectious hepatitis C virus genome. 925 Jan 50

Exposure to hepatitis C virus (HCV) is associated with a high prevalence of persistent viral infection and the development of chronic liver disease and hepatocellular carcinoma. Recovery from acute infection may depend upon the generation of broad-based cellular immune responses to viral structural and nonstructural proteins. We used the DNA-based immunization approach in BALB/c mice to determine whether the HCV nonstructural proteins NS3, NS4, and NS5 will induce Ab responses, CD4+ Th cell proliferation, and cytokine release in response to stimulation by recombinant proteins as well as generate CD8+ CTL activity both in vitro and in vivo. We found that the nonstructural proteins were particularly good immunogens and produced cellular immune responses when administered as a DNA construct. Indeed, a tumor model was established following inoculation of syngenic SP2/0 cells stably transfected with NS5. We observed protection against tumor formation and growth only in mice immunized with the NS5-encoding DNA construct, establishing the generation of significant CTL activity in vivo by this technique. The results indicate that genetic immunization may define the cellular immune response of the host to HCV nonstructural proteins and is a promising approach for vaccine development.
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PMID:Genetic immunization generates cellular and humoral immune responses against the nonstructural proteins of the hepatitis C virus in a murine model. 979 26

In addition to causing acute and chronic hepatitis, hepatitis B virus (HBV) is considered to be a major cliological factor in the development of human hepatocellular carcinoma (HCC). Epidemiological studies have demonstrated an approximately 10-fold increase in the relative risk of HCC among HBV carried compared to noncarriers. Almost all HBV-associated HCCs studied so far harbor chromosomally integrated HBV DNA. Integrated viral DNA can encode two types of transcriptional activators, the HBx protein and the PreS2 activators [the large surface proteins (LHBs) and truncated middle surface proteins (MHBs)]. The activator function of the PreS2 activators is based on the cytoplasmic orientation of the PreS2 domain. The PreS2 domain is PKC-dependent phosphorylated. Moreover, the PreS2 domain binds of PKC alpha/beta and triggers a PKC-dependent activation of the c-Raf-1/MAP2-kinase signal transduction cascade, resulting in an activation of transcription factors such as AP-1 and NF-kB. Furthermore, by activation of this signaling cascade, the PreS2 activators cause an increased proliferation rate of hepatocytes. According to the two-step model of carcinogenesis (initiation/promotion), the PreS2 activators could exert a tumour-promoter-like function by activation of the PKC/c-Raf-1/MAP2-kinase signaling cascade: cells harboring critical mutations (initiation) may be positively selected (promotion). Such a multistep process may account for the long latency period in HCC development, but it also leads to the hypothesis that each tumor reflects an individual case.
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PMID:The PreS2 activators of the hepatitis B virus: activators of tumour promoter pathways. 1002 12

The clinical significance of hepatitis G virus (HGV) infection was studied in 35 patients with various liver diseases of unknown etiology. Diseases included 5 cases of acute hepatitis, 23 cases of chronic liver diseases, and 7 cases of hepatocellular carcinoma. None of the patients showed evidence of hepatitis A, B, or C virus infection. HGV RNA was detected by reverse transcription polymerase chain reaction (RT-PCR) within 5' untranslated region (5'UTR), nonstructure (NS) 3 region, and NS5 region. RT-PCR within 5'UTR and NS5 detected HGV RNA in 9 of 35 patients, while that within NS3 detected HGV RNA in only 2 patients. This result suggests that RT-PCR within 5'UTR and NS5 as a primer is more sensitive than NS3 in Japanese patients. HGV RNA was detected in 3 of 5 cases of acute hepatitis, 3 of 23 cases of chronic liver diseases, and 1 of 7 cases of hepatocellular carcinoma. The HGV positive rate was high in patients with acute hepatitis suggesting that HGV might cause acute liver injury. In patients with chronic liver injury, the elevation of serum ALT levels was mild for about 2 years, but persistent HGV infection existed. The studied patients had no causative agent except for HGV. Therefore, HGV was thought to be an important etiological agent for liver injury.
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PMID:The significance of hepatitis G virus infection in patients with non-A to C hepatic diseases. 1043 Mar 61

Hepatitis C Virus (HCV) NS3 protease is an attractive target for antiviral agent development because it is required for viral replication. Because a stable cell culture system or small animal model to study HCV replication is not readily available, we constructed an in vitro model allowing the investigation of NS3 transcription, translation, and protease function. Sequences encoding for full length HCV genomes were cloned and transfected into HuH-7 human hepatocellular carcinoma cells to analyze NS3 transcription/translation. A plasmid pHCV ORF I luc that expresses the complete HCV coding region upstream of a luciferase reporter gene was designed to enable quantification of translated HCV proteins. Additionally, NS3 protease function was assessed by direct coexpression of NS3 and NS5 in HuH 7 cells, and the subsequent measurement of cleavage products. We found that antisense oligodeoxynucleotides (AS-ODN) interfered with NS3 translation in a dose dependent fashion; AS-ODN 5 cotransfection directed against NS3 sequences significantly inhibited protease activity as measured by cleaved NS5A levels. Finally, cleaved NS5A levels served as anindex of protease activity and Chymostatin, a protease inhibitor, almost completely blocked NS3 enzymatic activity. This cell culture system is useful in the assessment of potential antiviral agents on HCV NS3 expression and function.
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PMID:Inhibition of hepatitis C virus NS3 function by antisense oligodeoxynucleotides and protease inhibitor. 1174 30

Charge-to-alanine mutagenesis of dengue virus type 4 (DEN4) NS5 gene generated a collection of attenuating mutations for potential use in a recombinant live attenuated DEN vaccine. Codons for 80 contiguous pairs of charged amino acids in NS5 were individually mutagenized to create uncharged pairs of alanine residues, and 32 recombinant mutant viruses were recovered from the 80 full-length mutant DEN4 cDNA constructs. These mutant viruses were tested for temperature-sensitive (ts) replication in both Vero cells and HuH-7 human hepatoma cells. Of the 32 mutants, 13 were temperature sensitive (ts) in both cell lines, 11 were not ts in either cell line, and 8 exhibited a host range (tshr) phenotype. One tshr mutant was ts only in Vero cells, and seven were ts only in HuH-7 cells. Nineteen of the 32 mutants were 10-fold or more restricted in replication in the brains of suckling mice compared to that of wild-type DEN4, and three mutants were approximately 10,000-fold restricted in replication. The level of temperature sensitivity of replication in vitro did not correlate with attenuation in vivo. A virus bearing two pairs of charge-to-alanine mutations was constructed and demonstrated increased temperature sensitivity and attenuation relative to either parent virus. This large set of charge-to-alanine mutations specifying a wide range of attenuation for mouse brain should prove useful in fine-tuning recombinant live attenuated DEN vaccines.
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PMID:Paired charge-to-alanine mutagenesis of dengue virus type 4 NS5 generates mutants with temperature-sensitive, host range, and mouse attenuation phenotypes. 1175 43

AIM:To study hepatocarcinogenesis of hepatitis C virus (HCV).METHODS: Expression of HCV antigens (CP10, NS3 and NS5) and several cancer-associated gene products (ras p21, c-myc, c-erbB-2, mutated p53 and p16 protein) in the tissues of hepatocellular carcinoma (HCC, n = 46) and its surrounding liver tissue were studied by the ABC(avidin-biotin complex) immunohistochemical method. The effect of HCV infection on expression of those gene products in HCC was analyzed by comparing HCV antigen positive group with HCV antigen negative group.RESULTS:Positive immunostaining with one, two or three HCV antigens was found in 20 (43.5%) cases,with either of two or three HCV antigens in 16 (34.8%) cases, and with three HCV antigens in 9 (19.6%) cases.Deletion rate of p16 protein expression in HCC with positive HCV antigen (80%, 16/20)was significantly higher than that in HCC with negative HCV antigen. Whereas no significant difference of the other gene product expression was observed between the two groups.CONCLUSION:HCV appears related to about one third of cases of HCC in Chongqing, the southwest of China, and it may be involved in hepatocarcinogenesis by inhibi ting the function of p16 gene, which acts as a negative regulator of cell cycle.
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PMID:Effect of HCV infection on expression of several cancer-associated gene products in HCC. 1181 78

The hepatitis C virus (HCV) is a small enveloped RNA virus belonging to the family flaviviridae and genus hepacivirus. The HCV RNA genome is 9,600 nucleotides in length and encodes a single polyprotein that is post-translationally cleaved into 10 polypeptides including t3 structural (C, E1, and E2) and multiple nonstructural proteins ([NS] NS2 to NS5). The NS proteins include enzymes necessary for protein processing (proteases) and viral replication (RNA polymerase). The virus replicates at a high rate in the liver and has marked sequence heterogeneity. There are 6 genotypes and more than 90 subtypes of HCV, the most common in the United States being 1a and 1b (approximately 75%), 2a and 2b (approximately 15%), and 3 (approximately 7%). Acute hepatitis C is marked by appearance of HCV RNA in serum within 1 to 2 weeks of exposure followed by serum alanine aminotransferase (ALT) elevations, and then symptoms and jaundice. Antibody to HCV (anti-HCV) tends to arise late. In acute resolving hepatitis, HCV RNA is cleared and serum ALT levels fall to normal. However, 55% to 85% of patients do not clear virus, but develop chronic hepatitis C. Chronic hepatitis C is often asymptomatic, but is usually associated with persistent or fluctuating elevations in ALT levels. The chronic sequelae of hepatitis C include progressive hepatic fibrosis, cirrhosis, and hepatocellular carcinoma. Extra-hepatic manifestations include sicca syndrome, cryoglobulinemia, glomerulonephritis, and porphyria cutanea tarda. Knowledge of the course and outcome of hepatitis C is important in developing approaches to management and therapy.
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PMID:Course and outcome of hepatitis C. 1240 73

The main characteristics of the genome of the virus of the hepatitis C is studied, especially those such parts as the IRES for its capacity of union to the ribosome of the cell, the HVR1 for its high capacity of viral replication, as well as the place of union to the PKR or the ISDR, inside the protein NS5. They are defined the genotype concepts, subtype and quasispecies, and their implications in different such aspects as: 1) pathogenicity (in the severity of the infectious process, in the extrahepatic manifestations and in the appearance of the hepatocarcinoma); 2) in the biggest or smaller sensibility in the diagnostic techniques; 3) in the resistance to the treatment with interferon (well through the road NS3 or NS5, so much through the changes in PKR or the mutations in ISDR), and 4) in the epidemiology (changes of geographical variability, use of that variability like epidemic marker and obtaining difficulty of vaccines).
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PMID:[Genetic variability of the virus of the hepatitis C and their relationship with the clinic and the treatment]. 1502 99

The tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA) is a well-known activator of both protein kinase C (PKC) and mitogen activated protein kinase (MAPK) signal cascade triggering a lot of effects in many non-tumor and tumor cells. We have reported activation of PKCalpha isozyme was specifically required for TPA-induced ERK (MAPK) signaling that mediated gene expressions of the CDK inhibitors p15(INK4b) and p16 (INK4a) leading to growth inhibition of hepatoma cell HepG2. We further investigated the upstream signal molecule linking PKCalpha to ERK. In the Ras activation assay, HepG2 cell exhibited substantial amount of Ras activity. Treatment of the cell with 50nM TPA for 10min slightly inhibited Ras activity by about 10-20%. Pretreatment of the cell with 10microM manumycin A, which abolish basal Ras activity, did not prevent TPA-triggered ERK phosphorylation. Immunoprecipitation coupled with kinase assay demonstrated that MEK-1 activity was strongly induced by treatment of TPA for 5-30min in HepG2. In contrast, c-Raf activity was not significantly induced by TPA within 5-15min. Consistently, Western blot of Phospho(ser-218/222)-MEK demonstrated that phosphorylation of MEK-1 was greatly induced by 50nM TPA, which can be prevented by the PKC inhibitor Bisindolylmaleimides II. Moreover, pretreatment of the MEK1/2 inhibitor, but not c-Raf inhibitor prevented the TPA-induced ERK phosphorylation, gene expression of p15(INK4b) and p16 (INK4a) and growth inhibition of HepG2. In addition, transient expression of a dominant negative Raf mutant in HepG2 did not prevent these effects of TPA. Constitutive expression of an active PKCalpha mutant in HepG2 enhanced phosphorylation of both MEK and ERK accompanied with induction of gene expression of p16(INK4a) and growth inhibition of HepG2. In contrast, Ras and Raf activity were not increased by expression of active PKCalpha. Taken together, we conclude that PKCalpha may activate MEK, independently of Raf and Ras, to trigger sustained ERK (MAPK) signaling and cell cycle arrest of HepG2 induced by TPA.
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PMID:Protein kinase C alpha trigger Ras and Raf-independent MEK/ERK activation for TPA-induced growth inhibition of human hepatoma cell HepG2. 1616 61

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