Summary
Precise regulation of gene expression networks requires the selective targeting of DNA enhancers. The Evf2 long non-coding RNA regulates Dlx5/6 ultraconserved enhancer(UCE) interactions with long-range target genes, controlling gene expression over a 27Mb region in mouse developing forebrain. Here, we show that Evf2 long range gene repression occurs through multi-step mechanisms involving the transcription factor Sox2, a component of the Evf2 ribonucleoprotein complex (RNP). Evf2 directly interacts with Sox2, antagonizing Sox2-dependent Dlx5/6UCE activation. Evf2 regulates Sox2 binding at key sites, including the Dlx5/6eii shadow enhancer and Dlx5/6UCE interaction sites. Evf2 differentially targets RNP-associated Sox2 protein pools (PPs), redirecting Sox2-PPs to one repressed gene at the expense of the other. Co-regulation of Dlx5/6UCEintrachromosomal interactions by Evf2 and Sox2 reveals a role for Sox2 in chromosome topology. We propose that RNA organizes RNPs in a subnuclear domain, regulating both long-range UCE targeting and activity through Sox2-RNP sequestration and recruitment.
Competing Interest Statement
The authors have declared no competing interest.