CHD4 and SMYD1 repress common transcriptional programs in the developing heart.

Abstract

Regulation of chromatin states is essential for proper temporal and spatial gene expression. Chromatin states are modulated by remodeling complexes composed of components that have enzymatic activities. CHD4 is the catalytic core of the Nucleosome Remodeling and Deacetylase (NuRD) complex that represses gene transcription. However, it remains to be determined how CHD4, a ubiquitous enzyme that remodels chromatin structure, functions in cardiomyocytes to maintain heart development. Particularly, there exists controversy as to whether other proteins besides the NuRD components interact with CHD4 in the heart. Using quantitative proteomics, we identified that CHD4 interacts with SMYD1, a striated muscle-restricted histone methyltransferase that is essential for cardiomyocyte differentiation and cardiac morphogenesis. Comprehensive transcriptomic and chromatin accessibility studies of Smyd1 and Chd4 null embryonic hearts revealed that SMYD1 and CHD4 repress a group of common genes and pathways that included glycolysis, response to hypoxia, and angiogenesis. Our study reveals a novel mechanism by which CHD4 functions during heart development, and we have revealed an uncharacterized mechanism regarding how SMYD1 represses cardiac transcription in the developing heart.