Transcriptional repression of apolipoprotein AI gene expression by orphan receptor ARP-1

Expression of the apolipoprotein AI (apoAI) gene in the liver is controlled by a liver-specific enhancer. The function of this enhancer depends on synergistic interactions between transcription factors bound to at least three sites (designated A, B, and C) located within this enhancer. We have previ...

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Bibliographic Details
Published in:The Journal of biological chemistry 1994-05, Vol.269 (18), p.13185-13192
Main Authors: Ge, R, Rhee, M, Malik, S, Karathanasis, S K
Format: Article
Language:English
Subjects:
Animals
Apolipoprotein A-I - genetics
Binding Sites
Biological and medical sciences
CCAAT-Enhancer-Binding Proteins
Cells, Cultured
Chickens
COUP Transcription Factor II
COUP Transcription Factors
DNA - metabolism
DNA-Binding Proteins - metabolism
DNA-Binding Proteins - physiology
Early Growth Response Protein 1
Enhancer Elements, Genetic
Fundamental and applied biological sciences. Psychology
Gene Expression Regulation
Haplorhini
Humans
Immediate-Early Proteins
Molecular and cellular biology
Molecular genetics
Nuclear Proteins - metabolism
Receptors, Steroid - physiology
Transcription Factors - metabolism
Transcription, Genetic
Transcription. Transcription factor. Splicing. Rna processing
Tumor Cells, Cultured
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Summary:Expression of the apolipoprotein AI (apoAI) gene in the liver is controlled by a liver-specific enhancer. The function of this enhancer depends on synergistic interactions between transcription factors bound to at least three sites (designated A, B, and C) located within this enhancer. We have previously shown that an apoAI gene reporter construct containing the entire enhancer is expressed efficiently in a hepatoma cell line and that its activity is repressed by the orphan receptor ARP-1. Moreover, repression by ARP-1 is overcome by the retinoid X receptor RXR alpha in the presence of retinoic acid. In this study, we show that ARP-1 represses the apoAI promoter by binding to site A of the apoAI liver-specific enhancer, the repression being a promoter context-specific event. Mapping analysis of ARP-1 indicated that its DNA binding domain is essential but not sufficient for repression. Two separate repression domains located at the amino- and carboxyl-terminal halves of ARP-1 were found to individually complement the DNA binding domain for efficient repression. We also demonstrate the reversibility of ARP-1 repression by transcription factors C/EBP and Egr-1, which might also be involved in apoAI gene expression. Significantly, repression by ARP-1 was found to be a prerequisite for C/EBP-mediated transactivation. We interpret our results in terms of a model in which ARP-1 repression via its interaction with site A is an obligatory intermediate step in switching from one activated state of the apoAI gene to another.
ISSN:0021-9258
1083-351X
DOI:10.1016/S0021-9258(17)36817-5