Abstract
MYOGENIN is a member of the muscle regulatory factor family that orchestrates an obligatory step in myogenesis, the terminal differentiation of skeletal muscle cells. A paradoxical feature of alveolar rhabdomyosarcoma (ARMS), a prevalent soft tissue sarcoma in children arising from cells with a myogenic phenotype, is the inability of these cells to undergo terminal differentiation despite the expression of MYOGENIN. The chimeric PAX3-FOXO1 fusion protein which results from a chromosomal translocation in ARMS has been implicated in blocking cell cycle arrest, preventing myogenesis from occurring. We report here that PAX3-FOXO1 enhances glycogen synthase kinase 3β (GSK3β) activity which in turn represses MYOGENIN activity. MYOGENIN is a GSK3β substrate in vitro on the basis of in vitro kinase assays and MYOGENIN is phosphorylated in ARMS-derived RH30 cells. Constitutively active GSK3β(S9A) increased the level of a phosphorylated form of MYOGENIN on the basis of western blot analysis and this effect was reversed by neutralization of the single consensus GSK3β phosphoacceptor site by mutation (S160/164A). Congruently, GSK3β inhibited the trans-activation of an E-box reporter gene by wild-type MYOGENIN, but not MYOGENIN with the S160/164A mutations. Functionally, GSK3β repressed muscle creatine kinase (MCK) promoter activity, an effect which was reversed by the S160/164A mutated MYOGENIN. Importantly, GSK3β inhibition or exogenous expression of the S160/164A mutated MYOGENIN in ARMS reduced the anchorage independent growth of RH30 cells in colony-formation assays. Thus, sustained GSK3β activity represses a critical regulatory step in the myogenic cascade, contributing to the undifferentiated, proliferative phenotype in alveolar rhabdomyosarcoma (ARMS).
Highlights
Embryonal RMS is more common, alveolar RMS is considered to carry a worse prognosis
glycogen synthase kinase 3b (GSK3b) activation leads to a repression in skeletal and cardiac muscle differentiation, in part by antagonizing p38 mitogen activated protein kinase (MAPK)-mediated activation of myocyte enhancer factor-2 (MEF2).10,11 GSK3b usually targets proteins that have already been phosphorylated by another kinase at a ‘priming’ serine or threonine residue located four amino acids C-terminal to a consensus (S/T)XXX(S/T)-PO4 motif.[12,13]
In order to investigate the effect of PAX3-FOXO1 on this differentiation program, proliferating C2C12 myoblasts were transiently transfected with CMV-dsRed[2], muscle creatine kinase (MCK)-eGFP, and either HA-PAX3-FOXO1 or pcDNA3.1 control vector
Summary
Embryonal RMS is more common, alveolar RMS is considered to carry a worse prognosis. MYOGENIN activity constitutes a pivot point for irreversible commitment to terminal differentiation.[19,20] The combination of data from gene targeting studies of the MRFs21,22 supports the prevailing consensus that while the other three MRFs can compensate each other’s functional roles,[23,24,25,26] MYOGENIN is absolutely essential for skeletal muscle fiber formation.[20] Despite its expression in RMS, the paradox as to why MYOGENIN cannot mediate competence for differentiation is unknown. Pharmacological inhibition of GSK3b results in a profound decrease in size and, to a certain extent, number of RMS colonies in a colony-formation assay This effect is mimicked by introduction of MYOGENIN bearing neutralizing mutations in the GSK3b consensus site. ARMS, indicating that pharmacologic manipulation of this signaling axis may provide an opportunity for therapeutic intervention
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