Mavacamten improves energy balance in a pre-clinical model of RASopathy-associated hypertrophic cardiomyopathy
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Background and aim
Developmental disorders caused by activating mutations in the RAS-MAPK pathway account for nearly 20% of hypertrophic cardiomyopathy (HCM) cases in paediatric patients. Compared to sarcomeric HCM, RAS-HCM presents a higher risk of obstruction and hospitalisation. The myosin inhibitor mavacamten has been approved in the European Union for treating adults with obstructive HCM; however, clinical trials have excluded syndromic HCM. Consequently, this study aimed to characterise the functional and energetic disturbances induced by the RASopathy mutation BRAF p.Thr599Arg in cardiomyocytes and to evaluate the effects of mavacamten treatment.
Methods
Human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) with a CRISPR-induced BRAF T599R mutation and their isogenic control were employed to model RAS-HCM in vitro. The cell size, contractility, and transcriptomic profile were assessed to determine the phenotype of the cardiomyocytes. Energetics were evaluated using the Mito Stress assay, live ATP levels, and NAD(P)H and FAD+ autofluorescence.
Results
BRAF-mutant cardiomyocytes demonstrated hypertrophy and hypercontractility. Furthermore, energetic profiling revealed increased mitochondrial NAD(P)H and FAD+ pools and an enhanced energetic state in the Mito Stress assay with increased maximal respiratory capacity. However, they also exhibited a significant ATP drop during rapid pacing compared to the control, suggesting that mitochondrial capacity remains insufficient to meet the ATP demand. Mavacamten treatment normalised excessive ATP consumption during acute pacing, suggesting reduced mitochondrial overactivity.
Conclusions
BRAF-mutant cardiomyocytes recapitulate the characteristics of HCM in vitro. Mavacamten mitigates dysfunctions and restores energetic balance under stress conditions, indicating it holds potential as a therapeutic option for RASopathy-associated HCM.
