TGF-β-activated Kinase 1 (TAK1) and Apoptosis Signal-regulating Kinase 1 (ASK1) Interact with the Promyogenic Receptor Cdo to Promote Myogenic Differentiation via Activation of p38MAPK Pathway

Phong Tran,Seok-Man Ho,Bok-Geon Kim,Tuan Anh Vuong,Young-Eun Leem,Gyu-Un Bae,Jong-Sun Kang

doi:10.1074/jbc.m112.351601

Abstract

p38MAPK plays an essential role in the transition of myoblasts to differentiated myotubes through the activation of MyoD family transcription factors. A promyogenic cell surface molecule, Cdo, promotes myogenic differentiation mainly through activation of the p38MAPK pathway. Two MAP3Ks, TAK1 and ASK1, can activate p38MAPK via MKK6 in various cell systems. Moreover TAK1 has been shown to promote myogenic differentiation via p38MAPK activation. In this study, we hypothesized that TAK1 and ASK1 might function as MAP3Ks in Cdo-mediated p38MAPK activation during myoblast differentiation. Both ASK1 and TAK1 were expressed in myoblasts and interacted with the cytoplasmic tail of Cdo and a scaffold protein, JLP. The depletion of TAK1 or ASK1 in C2C12 cells decreased myoblast differentiation, whereas overexpression of TAK1 or ASK1 in C2C12 cells enhanced myotube formation. In agreement with this, overexpression of ASK1 or TAK1 resulted in enhanced p38MAPK activation, and their knockdown inhibited p38MAPK in C2C12 cells. Overexpression of TAK1 or ASK1 in Cdo(-/-) myoblasts and Cdo-depleted C2C12 cells restored p38MAPK activation as well as myotube formation. Furthermore, ASK1 and TAK1 compensated for each other in p38MAPK activation and myoblast differentiation. Taken together, these findings suggest that ASK1 and TAK1 function as MAP3Ks in Cdo-mediated p38MAPK activation to promote myogenic differentiation.

Highlights

Skeletal muscle differentiation is a well orchestrated process that includes cell cycle withdrawal, expression of muscle-specific genes, and morphological changes that include cell elon
apoptosis signal-regulating kinase 1 (ASK1) and TGF-␤-activated kinase 1 (TAK1) Form a Complex with Cdo and JLP during Myoblast Differentiation—To test the possibility that TAK1 and ASK1 may function as MAP3Ks in Cdo-mediated p38MAPK activation, we analyzed whether TAK1 and ASK1 could interact with Cdo
TAK1 has been proposed to function as a MAP3K to activate p38 and promotes myoblast differentiation [23], whereas the role of ASK1 in myogenesis and whether it activates p38MAPK in myogenesis is unknown

Summary

Introduction

Skeletal muscle differentiation is a well orchestrated process that includes cell cycle withdrawal, expression of muscle-specific genes, and morphological changes that include cell elon-. The interaction among Cdo, ASK1, TAK1, and JLP was significantly enhanced at day 2 in DM (Fig. 1, E and F) when myoblast differentiation was initiated, which is evident by MHC expression; p38MAPK activation is generally detected at this time point [34].

Results

Conclusion