Transcription of the non-coding RNA upperhand controls Hand2 expression and heart development

Abstract

Transcription of a long non-coding RNA, known as upperhand (Uph) located upstream of the HAND2 transcription factor is required to maintain transcription of the Hand2 gene by RNA polymerase, and blockade of Uph expression leads to heart defects and embryonic lethality in mice. The expression of the transcription factor HAND2 is controlled by several upstream enhancer elements, confined in a region delimited by the presence of the chromatin mark H3K27Ac. Eric Olson and colleagues have found that the transcription of long non-coding RNA located upstream of HAND2 is required to maintained these chromatin marks and let the RNA polymerase transcribe the Hand2 gene. Preventing the expression of this long non-coding RNA with a termination cassette leads to defects in heart development in mice. HAND2 is an ancestral regulator of heart development and one of four transcription factors that control the reprogramming of fibroblasts into cardiomyocytes1,2,3,4. Deletion of Hand2 in mice results in right ventricle hypoplasia and embryonic lethality1,5. Hand2 expression is tightly regulated by upstream enhancers6,7 that reside within a super-enhancer delineated by histone H3 acetyl Lys27 (H3K27ac) modifications8. Here we show that transcription of a Hand2-associated long non-coding RNA, which we named upperhand (Uph), is required to maintain the super-enhancer signature and elongation of RNA polymerase II through the Hand2 enhancer locus. Blockade of Uph transcription, but not knockdown of the mature transcript, abolished Hand2 expression, causing right ventricular hypoplasia and embryonic lethality in mice. Given the substantial number of uncharacterized promoter-associated long non-coding RNAs encoded by the mammalian genome9, the Uph–Hand2 regulatory partnership offers a mechanism by which divergent non-coding transcription can establish a permissive chromatin environment.