Single-Cell Sequencing Identifies the Crucial Role of Mitochondrial Fission-Fusion Balance in Cardiac Hypertrophy Progression
Background
The heart undergoes growth in response to both pathological and physiological stimuli. Pathological hypertrophy often leads to cardiomyocyte loss and heart failure (HF), whereas physiological hypertrophy paradoxically protects the heart and enhances cardiomyogenesis. The molecular mechanisms that distinguish these two forms of hypertrophy remain unclear.
Methods
In this study, we utilized single-cell transcriptomics from transverse aortic constriction (TAC) models at 2, 5, 8, and 11 weeks (GSE120064), along with bulk RNA sequencing from mice subjected to 12 months of exercise-induced physiological hypertrophy and cardiomyogenesis (CRA007207), to investigate the molecular differences between pathological and physiological hypertrophy.
Results
Our results reveal the following. Mitochondrial-related pathways are the primary drivers of the pathological changes that occur following TAC. The mitochondrial fission and fusion pathways exhibited increased activity at 2 weeks but decreased activity at 5, 8, and 11 weeks post TAC. The expression pattern of exercise-induced physiological hypertrophy was similar to that of 2-week TAC-induced changes, indicating that the early stage of TAC represents an adaptive physiological response or physiological hypertrophy. Notably, during HF, the fission genes Fis1 and Dnm1l increase, in contrast to the expected decrease in fusion genes. These findings were experimentally validated, indicating that the mitochondrial fission genes Fis1 and Dnm1l are key promoters of HF.
Conclusions
Our data indicate that the balance between mitochondrial fission and fusion plays a critical role in the transition from physiological to pathological hypertrophy. The fission-related genes Fis1 and Dnm1l have emerged as key drivers of pathological hypertrophy and heart failure. These findings suggest that targeting fission genes, particularly Fis1 and Dnm1l, may represent promising therapeutic strategies for managing heart failure.
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