Genetic deletion of microRNA-34 unmasks cardiac vulnerability to psychosocial stress in male mice

Exposure to chronic psychosocial stress is a major risk for cardiovascular disease. While the cardiovascular response to acute psychological stress is well known, the mechanisms underlying the risk to develop cardiovascular consequences in response to chronic stress exposure are poorly understood. The family of microRNA-34 (miR-34 s) is widely investigated for its role in cardiovascular dysfunctions, and recently miR-34 s were found involved in the brain adaptation to chronic stress. Here we investigated whether the miR-34 s contribute to psychosocial stress-induced cardiac vulnerability. We exploited a genetic mouse model to test the impact of chronic psychosocial stress on cardiac fibrosis and investigated mitochondrial dysfunction as a potential contributing factor in the presence or absence of miR-34 s. We found that in male mice lacking the miR-34 s the chronic stress exposure altered the behavioral adaptation to social defeat, increased the amount of cardiac fibrosis, reduced mitochondrial performance and altered the expression of apoptosis modulators in the myocardium. Our results revealed that the deletion of miR-34 s enhances cardiac vulnerability to psychosocial stress, suggesting a protective role of miR-34 s in the maintenance of cardiac homeostasis in facing specific stress challenges. We propose that mice lacking miR-34 s may represent a new valuable model to study the molecular mechanisms underlying the detrimental effect of psychosocial stress on the heart.