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)
Enhancer II (ENII) of
hepatitis B
virus (HBV) is one of the essential cis-elements for the transcriptional regulation of HBV gene expression. Its function is highly liver-specific, suggesting that liver-enriched transcriptional factors play critical roles in regulating the activity of ENII. In this report, a novel hepatocyte transcription factor, which binds specifically to the B1 region (AACGACCGACCTTGAG) within the major functional unit (B unit) of ENII, has been cloned from a human liver cDNA library by yeast one-hybrid screening, and demonstrated to trans-activate ENII via the B1 region. We named this factor hB1F, for human B1-binding factor. Amino acid analysis revealed this factor structurally belongs to nuclear receptor superfamily. Based on the sequence similarities, hB1F is characterized to be a novel human homolog of the orphan receptor fushi tarazu factor I (
FTZ-F1
). Using reverse transcription-polymerase chain reaction, a splicing isoform of hB1F (
hB1F-2
) was identified, which has an extra 46 amino acid residues in the A/B region. Examination of the tissue distribution has revealed an abundant 5.2-kilobase transcript of hB1F is present specifically in human pancreas and liver. Interestingly, an additional transcript of 3.8 kilobases was found to be present in hepatoma cells HepG2. Fluorescent in situ hybridization has mapped the gene locus of hB1F to the region q31-32.1 of human chromosome 1. Altogether, this study provides the first report that a novel human homolog of
FTZ-F1
binds and regulates ENII of HBV. The potential roles of this
FTZ-F1
homolog in tissue-specific gene regulation, in embryonic development, as well as in liver carcinogenesis are discussed.
...
PMID:Cloning and characterization of a novel human hepatocyte transcription factor, hB1F, which binds and activates enhancer II of hepatitis B virus. 978 8
Hepatitis B
virus (HBV) enhancer II (EnII) is a hepatotropic cis element which is responsible for the hepatocyte-specific gene expression of HBV. Multiple transcription factors have been demonstrated to interact with this region. In this study, the region from HBV nucleotides (nt) 1640 to 1663 in EnII was demonstrated to be essential for enhancer activity and to be another target sequence of putative transcription factors. To elucidate the factors which bind to this region, we used a yeast one-hybrid screening system and cloned three transcription factors, HLF,
FTF
, and E4BP4, from a human adult liver cDNA library. All of these factors had binding affinity to the sequence from nt 1640 to 1663. Investigation of the effects of these factors on transcriptional regulation revealed that HLF and
FTF
had stimulatory activity on nt 1640 to 1663, whereas E4BP4 had a suppressing effect.
FTF
coordinately activated both 3. 5-kb RNA and 2.4/2.1-kb RNA transcription in a transient transfection assay with an HBV expression vector. HLF, however, activated only 3.5-kb RNA transcription, and in primer extension analysis, HLF strongly stimulated the synthesis of pregenome RNA compared to precore RNA. Thus,
FTF
stimulated the activity of the second enhancer, while HLF stimulated the activity of the core upstream regulatory sequence, which affects only the core promoter, and had a dominant effect on the pregenome RNA synthesis.
...
PMID:Identification of multiple transcription factors, HLF, FTF, and E4BP4, controlling hepatitis B virus enhancer II. 1062 34
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 orphan nuclear receptor hB1F (also known as NR5A2,
LRH-1
,
FTF
or
CPF
) plays important roles in regulating the expression of several cellular and viral genes actively involved in a wide range of biological processes such as the bile acid biosynthesis, liver specific gene regulatory network and
hepatitis B
virus replication. The activity of nuclear receptors is regulated by multiple mechanisms, including coactivation and corepression. In this study, it was found that the silencing mediator for retinoic acid receptor and thyroid hormone receptor (SMRT) specifically represses the transcriptional activity of hB1F, on either GAL4 dependent reporter system or the hB1F-responsive HBV enhancer II/core promoter. The repression imposed by SMRT is observed in different cell lines. Interestingly, hB1F couldn t interact with SMRT directly, as demonstrated by mammalian two-hybrid analysis or GST pull-down assay. Taken together, it can be concluded for the first time that the transcriptional activity of hB1F is regulated specifically by the corepressor SMRT via an indirect mechanism.
...
PMID:Corepressor SMRT specifically represses the transcriptional activity of orphan nuclear receptor hB1F/hLRH-1. 1451 6
Human
hepatitis B
virus enhancer II B1 binding factor (hB1F also known as NR5A2,
LRH-1
,
FTF
or
CPF
) is an orphan nuclear receptor and belongs to the fushi tarazu factor I (
FTZ-F1
) subfamily. It plays important roles in the transcriptional regulation of a number of genes involved in bile acid biosynthesis pathway,
hepatitis B
virus (HBV) replication and liver specific regulatory network. Like other nuclear receptors, hB1F is composed of modular functional domains. We characterized a domain in its hinge region that imposes a strong repression on the transcriptional activity of hB1F, which is important for the function of hB1F on regulating the activity of HBV enhancer II/core promoter. Mutations of the core residues in this domain abrogate the repression. Bioinformatic analysis reveals that the amino acid sequence of this region is highly conserved only among members of the
FTZ-F1
subfamily. The repression is observed in five cell lines tested, while the degree of the repression varies greatly, which does not parallel with the expression level of the DEAD box protein of 130 kD (DP103), a potential interacting protein of a homologous domain in the steroidogenic factor 1 (SF-1). Moreover, the repression is not affected by the silencing mediator for retinoic acid receptor and thyroid hormone receptor (SMRT) and steroid receptor coactivator 1 (SRC-1). Collectively, these data suggest a novel regulatory mechanism for the transcriptional activity of hB1F.
...
PMID:Characterization of a strong repression domain in the hinge region of orphan nuclear receptor hB1F/hLRH-1. 1451 8
Enhancer II (ENII) is one of the critical cis-elements in the
Hepatitis B
Virus (HBV) genome for the hepatic viral gene transcription and DNA replication. The liver-specific activity of ENII is regulated by multiple liver-enriched transcription factors, including
LRH-1
/hB1F, HNF1, HNF3b, HNF4 and C/EBP. Knowledge on the interplay of these important factors is still limited. In this study, we demonstrate a functional synergism between the orphan nuclear receptor
LRH-1
/hB1F and the homeoprotein HNF1 in up-regulating the liver-specific activity of ENII. This synergism is sufficient for initiating the viral gene transcription and DNA replication in non-hepatic cells. We have defined the activation domains in hB1F and HNF1 that contribute to the synergism. We further show that hB1F and HNF1 can interact directly in vitro and have mapped the domains required for this interaction.
...
PMID:LRH-1/hB1F and HNF1 synergistically up-regulate hepatitis B virus gene transcription and DNA replication. 1472 1
