Abstract
Human pluripotent stem cells have the potential to differentiate into various cell types including skeletal muscles (SkM), and they are applied to regenerative medicine or in vitro modelling for intractable diseases. A simple differentiation method is required for SkM cells to accelerate neuromuscular disease studies. Here, we established a simple method to convert human pluripotent stem cells into SkM cells by using temperature‐sensitive Sendai virus (SeV) vector encoding myoblast determination protein 1 (SeV‐Myod1), a myogenic master transcription factor. SeV‐Myod1 treatment converted human embryonic stem cells (ESCs) into SkM cells, which expressed SkM markers including myosin heavy chain (MHC). We then removed the SeV vector by temporal treatment at a high temperature of 38℃, which also accelerated mesodermal differentiation, and found that SkM cells exhibited fibre‐like morphology. Finally, after removal of the residual human ESCs by pluripotent stem cell‐targeting delivery of cytotoxic compound, we generated SkM cells with 80% MHC positivity and responsiveness to electrical stimulation. This simple method for myogenic differentiation was applicable to human‐induced pluripotent stem cells and will be beneficial for investigations of disease mechanisms and drug discovery in the future.
Highlights
Simple method to convert human pluripotent stem cells into skeletal muscles (SkM) cells by using protein 1 (SeV-Myod1), a myogenic master transcription factor
We utilized Sendai virus (SeV) vector to deliver nies were dissociated into single cells with TrypLE Select enzyme
We used the conthe direct toxicity of SeV-Myod[1] on human ESCs, we measured the dition of 48-hour incubation with 1 μM staurosporine (SantaCruz adenylate kinase released from damaged cells, and we conducted the Biotechnology) and 1-h incubation with 1% Triton-X (Nacalai tesque)
Summary
Simple derivation of skeletal muscle from human pluripotent stem cells using temperature-sensitive Sendai virus vector.
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