Abstract
INTRODUCTION: C2C12 is an immortalized mouse myoblast cell line actively used as in vitro experimental models to study skeletal muscle metabolism in biomedical research. C2C12 cells can differentiate into myocytes under appropriate culture conditions. It is important to understand the specifics of each stage of myogenesis and its regulatory mechanisms for the targeted exposure and development of medical drugs, taking into account the mechanisms of pathogenesis of various diseases.
 AIM: To describe the method of culturing С2С12 cell line and to study regulatory mechanisms of С2С12 cell line myogenesis.
 MATERIALS AND METHODS: The study was conducted on C2C12 cell line. Differentiation of myoblasts was induced in the nutrient medium containing 2% horse serum. The differentiation stages were evaluated by studying the cells on the 1st, 4th and 7th days. Cells before differentiation were used as a comparison group. At each differentiation stage, the myoblast fusion index (IM) was evaluated with preliminary staining of the cells by Romanowsky–Giemsa method. The cell differentiation mechanism was evaluated by the level of myosin, a-actin, myogenic differentiation protein (MyoD), myogenin (MyoG) using Western blot method.
 RESULTS: On the 1st day of C2C12 cells culturing, formation of myotubes was observed (IM = 0.15 ± 0.05), on the 4th day — fusion of myoblasts with the formation of binucleated cells accompanied by an increase in the amount of MyoD and α-actin protein (IM = 0.44 ± 0.14). By the 7th day of differentiation, the fusion of cells increased with the formation of myotubes containing more than two nuclei; the content of MyoD and α-actin did not differ from the control, and the amount of MyoG and myosin increased (IM = 0.77 ± 0.04).
 CONCLUSION: The described method of culturing C2C12 cell line in Dulbecco’s Modified Eagle’s Medium with a high glucose content (4500 mg/l), containing 2% horse serum, L-glutamine (4 mМ), 100 Un/ml and 100 µg/ml of penicillin and streptomycin, is suitable for the formation of muscle cells, where MyoD and MyoG participate in the regulation of the increase in the amount of specific muscle proteins — α-actin and myosin.
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