The polyadenylation binding protein nucleus 1 (PABPN1), a multifactorial regulator of mRNA processing, regulates muscle wasting and atrophy. Previously, we elucidated the PABPN1-dependent proteome and found that levels of structural proteins, sarcomeric and cytoskeletal, were highly altered. We identified MURC, a plasma membrane-associated protein, to be affected by the cytoskeletal stability and suggest that MURC is a novel marker for impaired regeneration in muscles. We also studied the spatial organization of muscle structural proteins in 2D and 3D cell models with reduced PABPN1 levels (named here as shPAB). We show that dysregulation of cytoskeletal proteins in the shPab proteome is associated with a cytoskeleton lacking a polarized organization in muscle cells. We show that consequently, the cell mechanical features as well as myogenic differentiation are significantly reduced. We then show that restoring cytoskeletal stability, by actin overexpression in shPAB was beneficial for cell fusion and for the expression of sarcomeric proteins in shPAB models. We suggest that poor cytoskeleton mechanical features are caused by altered expression levels and contribute to agingassociated muscle wasting and atrophy.
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