Recruitment of transcriptional effectors by Cas9 creates cis regulatory elements and demonstrates distance-dependent transcriptional regulation

Abstract

It is essential to regulate the expression of genes, such as those encoding the proteins of the cardiac sarcomere. This regulation is often mediated by cis regulatory elements termed enhancers and repressors that recruit transcription factors to gene-distal sites. However, the relationship between transcription factors recruitment to gene-distant sites and the regulation of gene expression is not fully understood. Specifically, it is unclear if such recruitment to any genomic site is sufficient to form an enhancer or repressor at the site, and what is the relationship between the cis regulatory element’s position and its ability to control the transcription of distant genes. Using dead Cas9 to recruit either viral or endogenous transcription factor activation domains, we demonstrate that targeting ‘naïve’ genomic sites lacking open chromatin or active enhancer marks is sufficient to alter the chromatin signature of the target site, the distant gene promoter, and significantly induce the distant gene expression, even across chromatin insulating loci. The magnitude of induction is affected by the distance between the activation site and the cognate gene in a non-linear manner. Dead Cas9 mediated recruitment of repression domains behave similarly to activation in that targeting of non-regulatory regions could repress gene expression with a nonlinear distance dependence and across chromatin insulating loci. These findings expand the models of enhancer generation and function by showing that an arbitrary genomic site can become a regulatory element and interact epigenetically and transcriptionally with a distant promoter. They also provide new fundamental insights into the rules governing gene expression.