Abstract
Lipids are present within the cell nucleus where they engage with factors involved in gene regulation. Cholesterol associates with chromatin in vivo and stimulates nucleosome packing in-vitro, but its effects on specific transcriptional responses are not clear. Here we show that the lipidated WT1 transcriptional corepressor, BASP1, interacts with cholesterol in the cell nucleus through a conserved cholesterol interaction motif. We demonstrate that BASP1 directly recruits cholesterol to the promoter region of WT1 target genes. Mutation of BASP1 to ablate its interaction with cholesterol or the treatment of cells with drugs that block cholesterol biosynthesis inhibit the transcriptional repressor function of BASP1. We find that the BASP1-cholesterol interaction is required for BASP1-dependent chromatin remodelling and the direction of transcription programs that control cell differentiation. Our study uncovers a mechanism for gene-specific targeting of cholesterol where it is required to mediate transcriptional repression.
Significance Cholesterol is present within the cell nucleus where it associates with chromatin but to date, a direct role for cholesterol in nuclear processes has not been identified. We demonstrate that the transcriptional repressor BASP1 directly interacts with cholesterol within the cell nucleus through a consensus cholesterol interaction motif. BASP1 recruits cholesterol to the promoter region of target genes where it is required to mediate chromatin remodelling and transcriptional repression. Our work demonstrates that nuclear cholesterol plays a direct role in transcriptional regulation.
Competing Interest Statement
The authors have declared no competing interest.