Enhancers play a central role in the transcriptional regulation of metazoans. Almost a decade ago, the discovery of their pervasive transcription into noncoding RNAs, termed enhancer RNAs (eRNAs), opened a whole new field of study. The presence of eRNAs correlates with enhancer activity; however, whether they act as functional molecules remains controversial. Here we review direct experimental evidence supporting a functional role of eRNAs in transcription and provide a general pipeline that could help in the design of experimental approaches to investigate the function of eRNAs. We propose that induction of transcriptional activity at enhancers promotes an increase in its activity by an RNA-mediated titration of regulatory proteins that can impact different processes like chromatin accessibility or chromatin looping. In a few cases, transcripts originating from enhancers have acquired specific molecular functions to regulate gene expression. We speculate that these transcripts are either nonannotated long noncoding RNAs (lncRNAs) or are evolving toward functional lncRNAs. Further work will be needed to comprehend better the biological activity of these transcripts.
Keywords: chromatin; chromatin loop; eRNAs; enhancer; gene expression; lncRNAs.