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

---

Query: UMLS:C0019163 (hepatitis B)
38,309 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The enhancer element of hepatitis B virus (HBV) regulates the transcription of all HBV mRNA, including the pregenomic mRNA used during replication. This pregenomic mRNA is transcribed from the core gene promoter which is located 500 bp downstream from the HBV enhancer element. To examine the effect of the HBV enhancer on the activity of the core gene promoter, we constructed various plasmids containing different combinations of HBV enhancer and core gene promoter sequences regulating the expression of the chloramphenicol acetyltransferase gene. When the HBV enhancer was positioned immediately adjacent to the core gene promoter, the enhancer increased the activity of the core gene promoter nearly 30-fold. In contrast, the HBV enhancer only modestly stimulated the core gene promoter (less than threefold) at its native position in the HBV genome. This weak HBV enhancer activity was due to a DNA sequence located between the enhancer and the core gene promoter and not due to the increased distance between the enhancer and the core gene promoter. Competition experiments demonstrated that a trans-acting factor(s) bound this sequence and repressed the enhancer. This DNA sequence contains the C/EBP, AP-1 and NF-1 regulatory sites. No inhibition of enhancer activity was observed when only the AP-1 and C/EBP sites were present. Repression of the HBV enhancer was not detected when the NF-1 site was disrupted, indicating that the NF-1 site was involved in the suppression of the HBV enhancer.
...
PMID:Repression of the hepatitis B virus enhancer by a cellular factor. 173 Sep 33

The human hepatitis B Virus genome (HBV) contains a liver-specific enhancer upstream of the X ORF which has been studied in detail by several investigators. A second liver-specific enhancer element, designated here as enhancer II, has been relatively recently described in the HBV genome, which is located within the core/pregenomic promoter. We have studied the interactions of transcriptional factors with this element and show here that the nuclear factor CCAAT/enhancer binding protein (C/EBP) binds at a unique site within these sequences. Further, using the transient cotransfection scheme of expression with C/EBP encoding vectors and an enhancer II-reporter gene construct, we demonstrate that the enhancer element II responds to increasing amounts of C/EBP by displaying transactivation. Evidence for the functional role of the enhancer element II in transcriptional regulation of the HBV gene expression is presented. A major influence of the enhancer II appears to be on the surface antigen expression.
...
PMID:Transcriptional factor C/EBP binds to and transactivates the enhancer element II of the hepatitis B virus. 185 80

The second enhancer (enhancer II) of hepatitis B virus is functionally liver specific. Located within an open reading frame of the virus and immediately upstream of the initiation sites of viral major transcripts, enhancer II furnishes a unique model for use in investigating the structure and function of an enhancer. In this study, two functional constituents, a 23-bp box-alpha and a 12-bp box-beta, are identified as being both necessary and sufficient for enhancer II function. Examination of the box-alpha and box-beta sequences reveals a weak homology to the extended consensus for a C/EBP binding site. Gel shift and footprinting analyses indicate that multiple proteins bind to these sequences and thus are candidate transcription factors that mediate the enhancer function. One heat-resistant protein, protein a, and one heat-sensitive protein, protein b, bind to box-alpha. Protein a, which binds to box-alpha in a way indistinguishable from that seen with a recombinant C/EBP, appears not to be identical to C/EBP in that the binding of protein a requires a minimal sequence larger than the canonical C/EBP sites. Two box-beta-binding proteins, c and d, show greater affinity for the C/EBP consensus than for box-beta. However, both proteins c and d are relatively heat sensitive and display a distinct sequence preference from the recombinant C/EBP protein. Since the function of enhancer II is strictly dependent on a bipartite architecture, this system provides a unique model for studies of how the interactions of its binding proteins lead to the enhancer function.
...
PMID:C/EBP-like proteins binding to the functional box-alpha and box-beta of the second enhancer of hepatitis B virus. 192 32

A complex cell culture environment has been shown to maintain the differentiated state of hepatocytes, yet the mechanisms by which environmental cues selectively maintain liver-specific gene transcription have been unknown. In this paper we show that the hepatic environment regulates the activities of at least three liver-enriched transcription factors, eE-TF, eG-TF/HNF3, and eH-TF, that activate the mouse serum albumin enhancer. eE-TF is a heat-stable factor that has a DNA-binding specificity similar to that of the liver transcription factor C/EBP, but is a distinct protein. eG-TF/HNF3 contributes to the liver-specific transcription of several other serum protein genes. eH-TF binds to a TGTTTGC sequence that occurs at regulatory sites of the albumin promoter, the hepatitis B virus enhancer, and other hepatic genes. eE-TF, eG-TF/HNF3, and eH-TF are regulated by different combinations of the following cell culture conditions: a hormonally defined serum-free medium; an extracellular matrix gel; and a transformation-competent simian virus 40 large T antigen. We propose a regulatory network model to explain how cues from the cell lineage and the extracellular environment coordinately help maintain the activities of transcription factors involved in hepatocyte differentiation.
...
PMID:Extracellular signals that regulate liver transcription factors during hepatic differentiation in vitro. 199 Feb 82

A putative transcription factor, C/EBP, isolated from rat liver nuclei, has been shown to bind to at least two different sequence motifs: the CCAAT promoter domain and a core sequence [GTGG(T/A)(T/A)(T/A)G] common to many viral enhancers, including simian virus 40 and human hepatitis B virus. It has been proposed that C/EBP might function as a positive transcription factor by facilitating the communication between promoter and enhancer elements through its dual binding activities to DNA. Surprisingly, results from three different approaches suggest that C/EBP functions as a transcriptional repressor to hepatitis B virus and simian virus 40. Further investigation indicated that C/EBP can function as both a transcriptional activator and a repressor, depending on the reporter gene system.
...
PMID:Transcriptional activation and repression by cellular DNA-binding protein C/EBP. 215 40

The X protein of hepatitis B virus (HBV) stimulates transcription of a large number of viral enhancers. This protein augments the activity of the HBV enhancer through a specific cis element, termed X responsive element (XRE). Multimers of XRE exhibit enhancer activity which is further stimulated by X. XRE binds multiple cellular transcription factors one of which is the C/EBP. We have constructed the DB gene containing the DNA-binding domain of the C/EBP. This gene efficiently represses the enhancer activity of the XRE by competitive displacement of the XRE-binding factors. Under these conditions, X was found to have only a partially stimulatory effect on transcription, suggesting that the XRE-binding proteins are required for the activity of X. In contrast, an X-DB hybrid protein that binds to the XRE is a strong transcription factor and acts without additional XRE-binding proteins. Furthermore, studies of X mutants revealed that the carboxy-terminus of the protein is required for this activation. These data show that X directly stimulates the cellular transcription machinery, possibly by protein-protein interaction with the XRE-binding factors.
...
PMID:The X protein of the hepatitis B virus acts as a transcription factor when targeted to its responsive element. 234 9

We used the enhancer-binding protein C/EBP as a model to study the nature and the complexity of interaction of an enhancer-binding protein with its target DNA. We found that bacterially expressed C/EBP binds the hepatitis B virus enhancer at multiple sites in a hierarchic and cooperative manner. At low concentrations, only the E element is occupied, but at higher concentrations, additional sites are filled including a site that binds EP, a crucial enhancer-activating protein. This pattern of C/EBP binding may explain the concentration-dependent effect of C/EBP on enhancer activity.
...
PMID:Hierarchic and cooperative binding of the rat liver nuclear protein C/EBP at the hepatitis B virus enhancer. 237 Aug 72

The X-gene product of human hepatitis B virus is a transacting transcriptional factor which activates a variety of heterologous viral and host promoters/enhancers. We have found that the X-gene product can significantly transactivate the regulatory sequences located at the 5'-upstream of the c-jun oncogene when a reporter plasmid containing the sequences was co-transfected to HepG2 cells with an X-gene expression plasmid. The results of mutational analysis indicate that the X-gene activation requires the AP-1 sequence of the c-jun gene. Furthermore, we also found that the X-gene is capable of activating the 5'-upstream sequence of the alpha-fetoprotein gene. There are at least two elements that respond to the X-gene transactivation. One is located in the sequences between -5,100 and -2,900, and the other is at the C/EBP site. Therefore, the X-gene activates the c-jun and alpha-fetoprotein genes through different host factors, namely AP-1 and C/EBP, respectively. The results of c-jun activation by the X-gene strongly support the previous hypothesis that the X-gene may play a critical role in the development of hepatocellular carcinoma.
...
PMID:The X-gene of human hepatitis B virus transactivates the c-jun and alpha-fetoprotein genes. 751 Apr 74

Hepatitis B viruses (hepadnaviruses) can cause chronic, productive infections of hepatocytes. Analyses of the enhancers and promoters of these viruses in cell lines have suggested a requirement of these elements for liver-enriched transcription factors. In this study, a minimum of seven factor-binding sites on the duck hepatitis B virus enhancer were detected by DNase I footprinting using duck liver nuclear extracts. Among the sites that were tentatively identified were one C/EBP-, one HNF1-, and two HNF3-binding sites. Mutations of the HNF1- and HNF3-like sites, which eliminated factor binding, as assessed by both DNase I footprinting and competitive gel shift assays, were evaluated for their effects on enhancer activity. Using a construct in which human growth hormone was expressed from the viral enhancer and core gene promoter, we found that all of the mutations, either alone or in combination, reduced expression two- to fourfold in LMH chicken hepatoma cells. The mutations in the HNF1 site and one of the HNF3 sites, when inserted into the intact viral genome, also suppressed virus RNA synthesis in primary hepatocyte cultures. Virus carrying the latter HNF3 mutation was also examined for its ability to infect and replicate in ducks. No significant inhibition of virus replication was observed in a short-term assay; however, virus with the HNF3 mutation was apparently unable to grow in the pancreas, a second site of duck hepatitis B virus replication in the duck.
...
PMID:Identification of factor-binding sites in the duck hepatitis B virus enhancer and in vivo effects of enhancer mutations. 813 13

We have analyzed the structures, relative organization, and activities of binding sites for nuclear factors in the duck hepatitis B virus (duck HBV) enhancer. DNase I footprinting analysis and mobility shift assays demonstrate that this enhancer of 192 bp contains at least three binding sites for transcription factors: one for hepatocyte-adipocyte C/EBP, a second for the liver-specific transactivator hepatocyte nuclear factor 1 HNF-1, and a third for a factor, called F3, which binds to a DNA sequence bearing some resemblance to that for the ubiquitous factor EF-C. Analysis of transcriptional activity reveals that oligonucleotides corresponding to the individual binding sites, inserted upstream from a heterologous promoter, display very weak enhancer activity, whereas the enhancer encompassing these three sites displays very high activity. Analysis of duck HBV enhancer mutants indicates that the deletion of any of these sites leads to a modification of transcriptional enhancer activity. The hepatocyte nuclear factor 1 binding site is crucial, since an internal deletion of 14 bp abolishes the activity. The C/EBP site can act as repressor, and the F3 site is required for full activity. Comparative analysis reveals that the nuclear factors are similar to those bound to the human HBV enhancer but that the organization of their binding sites in the duck HBV enhancer is different.
...
PMID:Binding of nuclear factors to functional domains of the duck hepatitis B virus enhancer. 837 57


1 2 3 Next >>

---