Musculoskeletal defects associated with myosin heavy chain‐embryonic loss of function are mediated by the YAP signaling pathway

Abstract: Mutations in MYH3, the gene encoding the developmental myosin heavy chain‐embryonic (MyHC‐embryonic) skeletal muscle‐specific contractile protein, cause several congenital contracture syndromes. Among these, recessive loss‐of‐function MYH3 mutations lead to spondylocarpotarsal synostosis (SCTS), characterized by vertebral fusions and scoliosis. We find that Myh3 germline knockout adult mice display SCTS phenotypes such as scoliosis and vertebral fusion, in addition to reduced body weight, muscle weight, myofib… Show more

“…As genetic studies have shown that Myh3 mediates non-cell-autonomous effects on myoblasts (Agarwal et al, 2020), Myh3 expression at the fibre ends could be involved in driving fusion of LPM-derived fibroblasts at the level of the MTJ. Alternatively, Myh3 may exert mechanotransduction functions at this level through YAP signalling (Bharadwaj et al, 2023). The relevance of these different scenarios requires further investigation in vivo.…”

Functional specialisation and coordination of myonuclei

“…As genetic studies have shown that Myh3 mediates non-cell-autonomous effects on myoblasts (Agarwal et al, 2020), Myh3 expression at the fibre ends could be involved in driving fusion of LPM-derived fibroblasts at the level of the MTJ. Alternatively, Myh3 may exert mechanotransduction functions at this level through YAP signalling (Bharadwaj et al, 2023). The relevance of these different scenarios requires further investigation in vivo.…”

Functional specialisation and coordination of myonuclei

Expression of ovine MYH3 gene and its polymorphisms and association analysis with growth traits in Hu sheep

The Wnt-pathway corepressor TLE3 interacts with the histone methyltransferase KMT1A to inhibit differentiation in Rhabdomyosarcoma