Promoter of FGF8 Reveals a Unique Regulation by Unliganded RARα

We previously reported that retinoids were inducing a complete switch in the expression of two isoforms from the fgf8 gene. In order to gain insight into the transcriptional mechanisms possibly involved in this regulation, we cloned and sequenced a fragment of genomic DNA encompassing 6 kb of the re...

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Bibliographic Details
Published in:Journal of molecular biology 2002-06, Vol.319 (3), p.715-728
Main Authors: Brondani, Vincent, Klimkait, Thomas, Egly, Jean-Marc, Hamy, François
Format: Article
Language:English
Subjects:
CDK7
FGF8
RARα
regulation of gene expression
retinoids
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Summary:We previously reported that retinoids were inducing a complete switch in the expression of two isoforms from the fgf8 gene. In order to gain insight into the transcriptional mechanisms possibly involved in this regulation, we cloned and sequenced a fragment of genomic DNA encompassing 6 kb of the region 5′ upstream of the fgf8 coding sequence and investigated its promoter elements. A comprehensive series of biochemical and cellular experiments determined two distinct functional regions cis-responsive to retinoids and/or their receptors: (i) a canonical RARE (type DR2) which is the cis target of a RARα–RXRα liganded heterodimer; and (ii) a completely novel type of response element composed of two half-binding sites separated by 87 nucleotides, which we demonstrate to be the target of an unliganded RARα homodimer phosphorylated on the Ser77 residue. Combined activities of these cis and trans-acting factors support a model of a complex regulation of fgf8 expression: by alternative binding to two distinct promoter elements, phosphorylated-unliganded-RARα homodimer or its liganded form have two distinct and mutually exclusive trans-activating activities, explaining the expression of two different isoforms of fgf8.
ISSN:0022-2836
1089-8638
DOI:10.1016/S0022-2836(02)00376-5