Editor's Statement This report documents the characterization of a differentiating rat cell line that does not show the karyotypic shift toward polyploidy usually observed in rodent cell lines. Investigators already are finding this line valuable in studies of regulation of growth and differentiation.
Summary
A muscle cell strain capable of forming contracting myotubes was isolated from an established rat embryo cell line. The myogenic cells, termed rat myoblast omega or RMo cells, have a diploid complement of chromosomes (n=42). In the presence of mitogen-containing growth medium, RMo cells proliferated with a cell generation time of about 12 hours. In mitogen-depleted medium, RMo cells withdrew from the cell cycle and formed myotubes that spontaneously contracted. Differentiated RMo cells produced creatine kinase isozymes in a ratio characteristic of skeletal muscle cells. RMo cells were easy to cultivate. Cells proliferated and differentiated equally well on gelatin-coated or noncoated culture dishes, at clonal or mass culture densities, and in all basal media tested. In most experiments, growth medium consisted of horse serum-containing medium supplemented with either chicken embryo extract or FGF activity; cells proliferated equally well in medium containing unsupplemented calf serum. RMo cells differentiated if growth medium was not replenished regularly. Alternatively, differentiation was induceable by incubation in mitogen-depleted medium consisting of basal medium supplemented either with 10−6 M insulin, 0.5% serum, or 50% conditioned growth medium. RMo cells were competently transformed with cloned exogenous genes. Because it forms functional myofibrils, the RMo cell line constitutes a useful model system for studying the cell biology and biochemistry of proteins involved in contractile apparatus assembly and muscle disease.
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This work was supported by NIH research grant GM34432 and Research Career Development Award AG00334.
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Merrill, G.F. Clonal derivation of a rat muscle cell strain that forms contraction-competent myotubes. In Vitro Cell Dev Biol 25, 471–476 (1989). https://doi.org/10.1007/BF02624635
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DOI: https://doi.org/10.1007/BF02624635