Abstract
FOXP3 is a forkhead family transcriptional repressor important for the development and function of CD4(+)CD25(+) regulatory T cells. In humans, FOXP3 is expressed as two isoforms, a full-length form and a smaller form lacking exon 2. These two isoforms are expressed in approximately equal amounts in circulating regulatory T cells, and are induced equally in freshly activated CD4(+)CD25(-) T cells. Herein, we show that FOXP3 interacts with retinoic acid receptor-related orphan receptor (ROR)alpha, and that this interaction inhibits transcriptional activation mediated by RORalpha. Full-length FOXP3, but not the isoform lacking exon 2, interacts with RORalpha, and the region of FOXP3 involved in the interaction is encoded by exon 2. Mutation of the LxxLL motif in FOXP3, located in exon 2, abolished interaction and repression by FOXP3. Additionally, the inhibition of RORalpha by FOXP3 does not require an intact forkhead domain, demonstrating a mode of FOXP3 function that is independent of DNA binding. Interestingly, expression of RORalpha in T cells leads to the expression of genes that define Th17 cells, and the expression of each of these gene was inhibited by coexpression of full-length, but not DeltaEx2, FOXP3. These data expand the possible targets of FOXP3-mediated repression and demonstrate functional differences between FOXP3 isoforms.
Highlights
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Because the yeast 2-hybrid cDNA clones showed that the FOXP3-interacting region is located C-terminal to the DNA-binding domain (Fig. 1A), full-length isoform 4 was used for studies presented here
We examined whether FOXP3 suppresses ROR␣ transactivation at single ROR response element (RORE) site
Summary
Regulatory T; AF2, activation function 2; FKH, forkhead; IPEX, immune dysregulation, polyendocrinopathy, enteropathy, Xlinked syndrome; qPCR, quantitative PCR; ROR, retinoic acid receptor-like orphan receptor; RORE, ROR response element. In this report we show that FOXP3 can interact with ROR␣ and inhibit its ability to act as a transcriptional activator. This inhibition does not require DNA binding by FOXP3, and is only seen with the full-length protein, not the isoform lacking exon 2. This is the first report of a functional distinction between human FOXP3 isoforms, and it identifies a novel FOXP3-interacting protein
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