A clonal human skeletal muscle cell line showing acid maltase deficiency (AMD) was established through the transfection of origin-defective SV40 DNA. The low acid alpha-glucosidase activity and glycogenosomes in this clone corresponded to AMD. This clone, in spite of loading glycogenososmes, was competent not only as to proliferation without contact inhibition but also as to myogenic differentiation to some extent. Dexamethasone promoted the formation by the transformant of multinucleated myotubes, which expressed acetylcholine receptors. The existence of glycogenosomes did not seem to affect the proliferation or differentiation of myoblasts. The aberrant acid alpha-glucosidase expressed in the transformed myogenic clone was shown to be biochemically identical to that in AMD fibroblasts. This transformant should be of great value for investigating the pathogenesis of AMD because of the possibility of supplying semi-permanently a uniform myogenic cell line expressing AMD.