Interactions between muscle tissues and bone metabolism.

Sarcopenia and osteoporosis have recently been noted for their relationship with locomotive syndrome and increased number of older people. Sarcopenia is defined by decreased muscle mass and impaired muscle function, which may be associated with frailty. Several clinical data have indicated that increased muscle mass is related to increased bone mass and reduced fracture risk. Genetic, endocrine and mechanical factors as well as inflammatory and nutritional states concurrently affect muscle tissues and bone metabolism. Several genes, including myostatin and α-actinin 3, have been shown in a genome-wide association study (GWAS) to be associated with both sarcopenia and osteoporosis. Vitamin D, growth hormone and testosterone as well as pathological disorders, such as an excess in glucocorticoid and diabetes, affect both muscle and bone. Basic and clinical research of bone metabolism and muscle biology suggests that bone interacts with skeletal muscle via signaling from local and humoral factors in addition to their musculoskeletal function. However, the physiological and pathological mechanisms related to muscle and bone interactions remain unclear. We found that Tmem119 may play a critical role in the commitment of myoprogenitor cells to the osteoblast lineage. We also reported that osteoglycin and FAM5C might be muscle-derived humoral osteogenic factors. Other factors, including myostatin, osteonectin, insulin-like growth factor I, irisin and osteocalcin, may be associated with the interactions between muscle tissues and bone metabolism.