Abstract
The Foxp subfamily of forkhead/HNF3 transcription factors has recently been recognized because of its involvement in autoimmune disease, speech and language disorders, and lung development. Domains unique to this subfamily include a divergent DNA-binding winged helix, a leucine zipper, a zinc finger, and a polyglutamine tract. Little is known about the properties of these proteins that are fundamental to their function as transcription factors nor how the Foxp sequence motifs regulate their transcriptional regulatory properties. We report here a structure/function analysis of the Foxp1 protein. We have analyzed the alternative splice isoforms 1A and 1C and also report the cloning and characterization of a novel isoform Foxp1D that lacks the polyglutamine domain. We have isolated the preferred DNA-binding sites for Foxp1 transcription factors. Foxp1A, C, and D isoforms and the related Foxp2 protein repress gene transcription via binding to this consensus site or to a naturally occurring site within the SV40 and the interleukin-2 promoters. In some cases the strength of Foxp1 repression is mediated by the polyglutamine domain. Unlike previously characterized forkhead factors, Foxp1 proteins can form homodimers or heterodimers with subfamily members. The dimerization domain was localized to an evolutionarily conserved C2H2 zinc finger and leucine zipper motif. Finally, we demonstrate that Foxp1, although broadly expressed, is further regulated by tissue-specific alternative splicing of these functionally important sequence domains. These results suggest that Foxp1 proteins have diverse functional roles in different cell and tissue types.
Highlights
The Fox gene family encompasses a large number of transcription factors homologous to forkhead and HNF3
We demonstrate that Foxp1, broadly expressed, is further regulated by tissue-specific alternative splicing of these functionally important sequence domains. These results suggest that Foxp1 proteins have diverse functional roles in different cell and tissue types
We provide evidence that various Foxp1 isoforms repress transcription via direct binding to Foxp consensus DNA-binding sites present in the promoter regions of SV40 and IL-2.1 We show that the N-terminal polyglutamine domain strongly modulates Foxp1 repression activity on SV40 promoter
Summary
The Fox gene family encompasses a large number of transcription factors homologous to forkhead and HNF3. Fox transcription factors are identified by a conserved 110-amino acid DNA-binding (winged helix) domain [1, 2]. These proteins play important roles in regulating gene transcription during early development and organogenesis and control cell type- and tissue-specific gene expression [1, 2]. Homology is limited to an 80amino acid region within the DNA-binding domain that is truncated at the carboxyl helices Wing 1 and Wing 2 [5, 6, 8, 9] Such diversion from the HNF3 winged helix structure would predict significant differences in the preferred DNA-binding sequences for Foxp proteins. We show that Foxp isoform expression is highly regulated in tissues and cells
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