Abstract
Introduction: Simultaneous increase of myofibrils and mitochondria is a key process of cardiomyocyte differentiation from pluripotent stem cells (PSCs). Specifically, development of mitochondrial oxidative energy metabolism in cardiomyocytes is essential to providing the beating function. Although previous studies reported that mitochondrial oxidative metabolism have some correlation with the differentiation of cardiomyocytes, the mechanism by which mitochondrial oxidative metabolism is regulated and the link between cardiomyogenesis and mitochondrial function are still poorly understood. Methods: We performed transcriptome analysis on cells at specific stages of cardiomyocyte differentiation from mouse embryonic stem cells (mESCs) and human induced PSCs (hiPSCs). We selected highly upregulated mitochondrial metabolic genes at cardiac lineage commitment and time-dependent manner during cardiomyocyte differentiation and identified the protein-protein interaction network connecting between mitochondrial metabolic and cardiac developmental genes. Results: We found several mitochondrial metabolic regulatory genes at cardiac lineage commitment (Cck, Bdnf, Fabp4, Cebpa, Cdkn2a in mESC-derived cells and CCK, NOS3 in hiPSC-derived cells) and time-dependent manner during cardiomyocyte differentiation (Eno3, Pgam2, Cox6a2, Fabp3 in mESC-derived cells and PGAM2, SLC25A4 in hiPSC-derived cells). Notably, mitochondrial metabolic proteins are highly interacted with cardiac developmental proteins time-dependent manner during cardiomyocyte differentiation rather than cardiac lineage commitment. Furthermore, mitochondrial metabolic proteins are mainly interacted with cardiac muscle contractile proteins rather than cardiac transcription factors in cardiomyocyte. Conclusions: Mitochondrial metabolism is critical at cardiac maturation rather than cardiac lineage commitment.
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