Ex vivo expansion of skeletal muscle stem cells with a novel small compound inhibitor of eIF2α dephosphorylation

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A novel small compound inhibitor of eIF2α dephosphorylation, C10, efficiently expands skeletal muscle stem cells ex vivo and prolongs their culture, surpassing the efficacy of the previous analog sal003.

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Abstract

BACKGROUND Regeneration of adult tissues requires the activity of rare, mitotically quiescent somatic stem cells. These features are illustrated by the muscle stem cell (MuSC), also known as the satellite cell for its satellite position underneath the basal lamina of the myofiber. Isolation of MuSCs results in their rapid activation of the myogenic program and their subsequent culture ex vivo leads to loss of stem cell regenerative capacity. These shortcomings make MuSCs difficult to study, manipulate and prevent cell based therapies. We have previously shown that muscle stem cells (MuSCs) require tightly regulated protein synthesis through the phosphorylation of eIF2α. Sal003, an analog of salubrinal that blocks eIF2α dephosphorylation, promotes ex vivo expansion of MuSCs retaining regenerative capacity after engraftment into the Dmd mdx mouse model of Duchenne muscular dystrophy. METHODS Since micromolar concentrations of sal003 (10μM) are required to expand MuSCs ex vivo , we undertook a structure relations study to identify novel sal003 analogs with efficacy at lower concentrations. We demonstrate ex vivo expansion of MuSCs isolated from wild-type and mdx mice using new compounds, and use CRISPR/Cas9 genome editing tools to restore dystrophin expression in cultured MuSCs. RESULTS Here, we have synthesized and screened chemical analogs of sal003 to identify a novel compound promoting the ex vivo expansion of MuSCs. The novel compound expands wild-type and mdx MuSCs more efficiently than sal003 and also prolongs culture of primary myoblasts from isolated MuSCs. CONCLUSIONS We identify a novel sal003 analog, C10, with increased potency at lower concentrations. Culture conditions including sal003 or C10 can extend culture of primary myoblasts from isolated MuSCs, which we predict will enable their further study, genetic manipulation and cell based therapies.

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