Head-to-head antisense transcription and R-loop formation promotes transcriptional activation

The mechanisms used by antisense transcripts to regulate their corresponding sense mRNAs are not fully understood. Herein, we have addressed this issue for the vimentin ( VIM ) gene, a member of the intermediate filament family involved in cell and tissue integrity that is deregulated in different types of cancer. VIM mRNA levels are positively correlated with the expression of a previously uncharacterized head-to-head antisense transcript, both transcripts being silenced in colon primary tumors concomitant with promoter hypermethylation. Furthermore, antisense transcription promotes formation of an R-loop structure that can be disfavored in vitro and in vivo by ribonuclease H1 overexpression, resulting in VIM down-regulation. Antisense knockdown and R-loop destabilization both result in chromatin compaction around the VIM promoter and a reduction in the binding of transcriptional activators of the NF-κB pathway. These results are the first examples to our knowledge of R-loop–mediated enhancement of gene expression involving head-to-head antisense transcription at a cancer-related locus. Significance The molecular mechanisms used by noncoding RNAs to regulate gene expression are largely unknown. We have discovered a previously unidentified regulatory phenomenon underlying the transcriptional activation of the intermediate filament protein vimentin. This regulation involves the participation of a previously uncharacterized head-to-head antisense transcript that forms part of a hybrid DNA:RNA structure known as the R loop. R loops have been the focus of recent research regarding their unexpected involvement in gene expression regulation. Antisense-mediated formation of the R loop supports a local chromatin environment that ensures the optimal binding of vimentin transcriptional activators. In addition, we describe how hypermethylation of the locus in a large panel of colon cancer patients is correlated with antisense silencing and, thereby, compromises its regulatory activity.