Xk-related protein 8 regulates myoblast differentiation and survival.

Go-Woon Kim, Gi-Hoon Nam, In-San Kim, Seung-Yoon Park

The FEBS journal 2017 Nov

filter terms:

Xk-related protein 8 (Xkr8) is a scramblase and responsible for phosphatidylserine (PS) exposure on the cell surface in a caspase-dependent manner. Although PS exposure is found to be important for myotube formation during myoblast differentiation, the role of Xkr8 during myogenesis has not been elucidated. Here we show that Xkr8 contributes to myoblast differentiation. Xkr8 overexpression induced the formation of large myotubes during early differentiation, but this phenotype was not related to caspase-dependent cleavage of Xkr8. Furthermore, forced Xkr8 expression accelerated myoblast differentiation and conferred cell-death resistance after the induction of differentiation. Consistent with these results, Xkr8-knocked-down myoblasts exhibited impaired differentiation and more apoptotic cells during differentiation, implying the involvements of Xkr8 in the survival and proliferation of myoblasts. Taken together, the study shows Xkr8 influences myogenesis by acting as a positive regulator of terminal differentiation and myoblast survival. © 2017 Federation of European Biochemical Societies.

Citation

Go-Woon Kim, Gi-Hoon Nam, In-San Kim, Seung-Yoon Park. Xk-related protein 8 regulates myoblast differentiation and survival. The FEBS journal. 2017 Nov;284(21):3575-3588