Sex-dependent and muscle-specific progression of the MYBPC1 E248K Myotrem myopathy in response to aging.

Dominant missense mutations in MYBPC1, the gene encoding the essential sarcomeric slow Myosin Binding Protein-C (sMyBP-C), are associated with Myotrem, a new, early-onset congenital myopathy characterized by muscle weakness, hypotonia, skeletal deformities, and myogenic tremor. Importantly, the clinical manifestation of Myotrem in mid- and late adulthood is unknown. Using the Myotrem MYBPC1 E248K Knock-In (KI) murine model, we interrogated contractile performance of soleus, gastrocnemius, and Tibalis Anterior (TA) muscles in both male and female mice in mid- (12-months) and late (24-months) adulthood. Our findings showed that the phenotypic manifestation of E248K Myotrem differs across muscle-type, sex, and age. While KI soleus muscle consistently exhibited contractile impairment across both sexes and ages, KI gastrocnemius muscle displayed preserved force production. Interestingly, TA muscle showed a sex- and age-specific impact with preserved function through 12-months in both sexes and a sharp decline at 24-months solely in males. Quantitative analysis of TA sarcomeric organization uncovered structural deficits coinciding with contractile dysfunction, supporting the notion that sMyBP-C serves a primarily structural role in skeletal muscle. Collectively, our studies revealed that aging impacts the E248K Myotrem myopathy in a muscle- and sex-dependent fashion and show that sarcomeric disorganization accompanies contractile deterioration in affected muscles.