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Enzyme
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Query: UMLS:C0019163 (
hepatitis B
)
38,309
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
hepatitis B
virus (HBV) enhancer contains multiple active elements, one of which is the EP element, a 15 bp site important for its regulation by acting on other functional elements like the E site. The EP element, in the HBV enhancer context, contains two putative binding sites for c-myb family gene products. Electrophoretic mobility shift assays showed that the minimal c-Myb DNA-binding domain binds to the EP sequence. DNase I footprinting experiments revealed that only one consensus binding site was effectively protected. We found that c-Myb down-regulates transcription driving by the HBV enhancer in
CAT
assays performed in a haematopoietic (K562) and in a hepatic (HepG2) cell line. Interestingly, co-expression of both c-Myb and NF-M, a C/EBPbeta homologue which recognises the E element of the HBV enhancer, showed a synergistic transactivation of the HBV enhancer while, separately, each of them had an inhibitory effect on transcription in HepG2 and K562 cell lines, two cell types potentially infected by the
hepatitis B
virus.
...
PMID:c-Myb protein binds to the EP element of the HBV enhancer and regulates transcription in synergy with NF-M. 1039 21
We have demonstrated previously the presence of an 8-bp deletion mutant, spanning from nt. 1768 to nt. 1775 in the basic core promoter region of
hepatitis B
virus (HBV) in patients with anti-HBe positive asymptomatic phase before developing acute exacerbation after immunosuppressive treatment. The transcription and progeny virus production activities of the mutant were examined by transfection of the recombinant plasmid [pUC Del(2)] containing the head-to-tail dimer DNA of the mutant into HepG2 cells. The amounts of
hepatitis B
surface antigen (HBsAg) and HBe antigens secreted into the culture medium were markedly reduced. Southern blotting of DNAs extracted from the culture medium also showed reduced mutant activity to produce progeny virus. Northern blotting and RNase protection assay of RNAs extracted from transfected cells demonstrated that the transcription of both precore mRNA and pregenome RNA was reduced significantly compared to that of wild-type HBV. The promoter activity examined by transfection of the
CAT
plasmid containing deletion mutant DNA was much lower than that of wild type. Co-transfection experiments, however, of the
CAT
plasmid containing wild-type DNA with pUC Del(2) reduced
CAT
activity induced by wild-type, suggesting that truncated X protein produced by the mutant does not possess a sufficient transactivating activity. Gel shift assay using HepG2 nuclear extract and a probe containing four TA-rich regions in CP and various competitors suggested that the lack of the third TA-rich region was responsible for the transcription reduction of precore mRNA and pregenome RNA. The possible mechanisms are discussed.
...
PMID:Reduced transcription and progeny virus production of hepatitis B virus containing an 8-bp deletion in basic core promoter. 1074 27
Persistent infection by
hepatitis B
virus (HBV) and exposure to chemical carcinogens correlates with the prevalence of hepatocellular carcinoma in endemic areas. The precise nature of the interaction between these factors is not known. Glutathione S-transferases (GST) are responsible for the cellular metabolism and detoxification of a variety of cytotoxic and carcinogenic compounds by catalysis of their conjugation with glutathione. Diminished GST activity could enhance cellular sensitivity to chemical carcinogens. We have investigated GST isozyme expression in hepatocellular HepG2 cells and in an HBV-transfected subline. Total GST activity and selenium-independent glutathione peroxidase activity are significantly decreased in HBV transfected cells. On immunoblotting, HBV transfected cells demonstrate a significant decrease in the level of GST Alpha class. Cytotoxicity assays reveal that the HBV transfected cells are more sensitive to a wide range of compounds known to be detoxified by GST Alpha conjugation. Although no significant difference in protein half-life between the two cell lines was found, semi-quantitative reverse transcription-polymerase chain reaction shows a reduced amount of GST Alpha mRNA in the transfected cells. Because the HBV x protein (HBx) seems to play a role in HBV transfection, we also demonstrated that expression of the HBx gene into HepG2 cells decreased the amount of GST Alpha protein. Transient transfection experiments using both rat and human GST Alpha (rGSTA5 and hGSTA1) promoters in HepG2 cells show a decreased
CAT
activity upon HBx expression, supporting a transcriptional regulation of both genes by HBx. This effect is independent of HBx interaction with Sp1. Treatment with oltipraz, an inducer of GST Alpha, partially overcomes the effect of HBx on both promoters. Promoter deletion studies indicate that oltipraz works through responsive elements distinct from AP1 or NF-kappaB transcription factors. Thus, HBV infection alters phase II metabolizing enzymes via different mechanisms than those modulated by treatment with oltipraz.
...
PMID:Modulation of glutathione S-transferase alpha by hepatitis B virus and the chemopreventive drug oltipraz. 1093 96
The
hepatitis B
virus (HBV) enhancer II (EII) is highly liver-specific and plays an important role in regulating the transcription of all HBV genes. In this report, mutational analysis on the B1F-binding site in the major functional unit of HBV EII is described. The activity of HBV EII in EII-
CAT
reporter plasmids was significantly decreased when the sequence of the B1F-binding site in EII was mutated. Furthermore, a single point mutation in the B1 element that aborted the binding of B1F caused a dramatic decrease in viral gene transcription initiated from the HBV core promoter, which resulted in a reduction of the production of the HBV e antigen and pregenomic RNA, the template for viral DNA replication. In conclusion, the interaction of B1F with its target binding sequence in the EII region is crucial for liver-specific transcription and DNA replication of the virus.
...
PMID:Site-specific mutation of the hepatitis B virus enhancer II B1 element: effect on virus transcription and replication. 1117 94
The protein-DNA interactions in the enhancer II (ENII) and core promoter regions of
hepatitis B
virus (HBV) were investigated by the ligation-mediated polymerase chain reaction (LMPCR) in vivo footprinting in HepG2.2.15 cell line. Major footprints are evident at the enhancer II and core promoter regions. In particular, proteins appear to interact with the sites for Sp1, C/EBP, HNF4, HNF3, HNF1 and hB1F, as well as the TATA-like element. It confirmed that these protein-DNA interactions defined in vitro play important roles in the regulation of 3.5 kb RNAs transcription of HBV in vivo. Notably, three novel sites nt 1774-1789, nt 1801-1818 and nt 1835-1843 were found to be protected or hypersensitive, indicating that they were also involved in protein-DNA interactions in vivo. Functional analysis using
CAT
reporter gene demonstrated that the site from nt 1801 to 1818 was important for the function of HBV core promoter.
...
PMID:Investigation of Protein-DNA Interactions in Enhancer II and Core Promoter of HBV by in vivo Footprinting. 1211 57
The potassium channels are ubiquitous multisubunit membrane proteins, and potassium-dependent alterations in the membrane potential play an important role in the proliferation of many types of cells. This study analyzed the mutation, allelic loss and expression patterns of the KCNRG gene in 77 HCCs in order to determine if the KCNRG gene, which encodes the potassium channel regulating protein, is involved in the tumorigenesis of hepatocellular carcinoma (HCC). One KCNRG missense mutation, CGT
CAT
(Arg His) was found at codon 92 within the T1 domain. Hep3B hepatoma cells were transfected with the wild- or mutant-KCNRG to determine the effect of this mutation in KCNRG. Interestingly, the suppressive cell growth activity of the mutant-type KCNRG was significantly lower than that of the wild-type KCNRG. In addition, allelic loss was detected in 17 out of 64 (26.5%) informative HCC cases, and all were
hepatitis B
virus (HBV)-positive. Moreover, the allelic loss was closely related to an intrahepatic metastasis (P=0.0247), higher grade (P=0.0078) and clinical stage (P=0.0071). Expression analysis revealed 22 tumor tissues to have a loss of expression of the KCNRG transcript. These results suggest that genetic alterations and the expression of KCNRG might play an important role in the development and/or progression of a subset of HCCs.
...
PMID:Genetic and expression analysis of the KCNRG gene in hepatocellular carcinomas. 1681 83
An 11-year-old girl was admitted with backpain, weight loss, fatigue and behavioural disturbances, starting seven weeks before admission. Physical examination showed acrodynia, tremor, cachexia, hypertension and extensive gingival ulceration. Routine laboratory tests were normal, except for a CRP of 98 mg/l. Screening tests for recreational drugs as well as antibody assays for HIV,
hepatitis B
and borrelia burgdorferia were negative. Chest X-ray, brain
CAT
and MRI scan were all normal. Lumbar puncture didn't show any abnormalities. Eventually a 24-hour urine test confirmed the diagnosis that was suspected by further questioning.
...
PMID:A previously healthy 11-year-old girl with behavioural disturbances, desquamation of the skin and loss of teeth. 1904 36
Hepatitis B
virus (HBV) may contribute to hepatocarcinogenesis by blocking p53 function. A p53 response element-like binding sequences, TGCCT...TGCCT, was found in HBV genome. To clarify whether HBV DNA can, like some other DNA viruses, bind to P53 protein and form a DNA-protein complex, we used a series of plasmids encoding full-length or mutant HBV or p53 fragments to determine the binding ability of HBV DNA after cotransfected into cells by electrophoretic mobility shift (and supershift) assay. We found that HBV DNA could bind to P53 protein and form DNA-protein complexes in human hepatoma cell lines. Cotransfection with p53 and HBV DNA increased the replication of HBV,
CAT
activity, tumor cell apoptosis, and cytoplasmic P53 accumulation in the hepatoma cells. In conclusions, our observations suggest that the interaction of HBV and p53 at the levels of protein-protein and DNA-protein, which resulted in inactivation of p53 transactivation.
...
PMID:HBV DNA can bind to P53 protein and influence p53 transactivation in hepatoma cells. 1954 Jan 92
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