MicroRNAs as Effectors for Acetyltransferase p300 in Cardiac Hypertrophy

Sharma, Salil

08 December 2011

Myocardial transcriptional response to stress is critically dependent on availability of the histone acetyltransferase p300. p300 is a transcription coactivator which is rapidly induced by hemodynamic stress in the myocardium. This induction is both necessary and sufficient to drive myocardial hypertrophy in vivo. Although short-term elevation of p300 may be adaptive, sustained elevation of p300 increases the risk of heart failure. The mechanism of p300 induction during stress is unknown. The downstream effectors of p300 have been only incompletely elucidated. In this context, the role of microRNAs in regulating p300-driven cardiac hypertrophy can be of potential interest. MicroRNAs are short ~18-25 nucleotide non-coding RNAs that inhibit gene expression by inducing messenger RNA cleavage and blocking translation. Engagement of microRNAs by various transcription factors/coactivators is an important regulatory mechanism in angiogenesis and hypertrophy. However, the extent to which microRNAs act as downstream effectors and/or modulators of the p300-driven hypertrophic response is unknown. Preliminary data showed that miR20a, miR142 and miR374-5p were regulated during p300-driven cardiac hypertrophy and in acute ischemia. In addition, these microRNAs may target p300 as part of a feedback loop as p300 is one of the predicted targets. The goal of this project was to dissect the role of a subset of microRNAs including miR-20a, miR142 and miR374 during p300 regulated hypertophic growth in vitro and in vivo and to verify its targets. This study is important to delineate the role of microRNAs in the p300-dependent signaling network in the myocardium and may result in therapeutic benefit.

miR20a- microRNA20A

miR142- microRNA142

miR374-microRNA374