Differential effects of calcium ion concentration on cell fusion, cell division and creatine kinase activity in muscle cell cultures

Abstract

Cell fusion, cell number, soluble cell protein and creatine kinase activity have been measured simultaneously in chick muscle cell cultures exposed to various calcium ion concentrations for various periods of time, by adding either extra calcium chloride or the calcium-chelating agent, EGTA. Up to 0.75 mM EGTA cell fusion is not inhibited, but the specific activity of creatine kinase is reduced by 20–50%. Between 0.75 and 1.7 mM EGTA, cell fusion is gradually abolished and the increase in cell number prevented, but enzyme specific activity actually increases again and returns to control values. Adding extra Ca 2+ produces small increases in cell fusion and soluble cell protein, but much greater increases in creatine kinase activity. EGTA stimulates thymidine incorporation into DNA at low concentrations and then inhibits again as its concentration is increased further. These effects of EGTA on cell division may be related to its effects on creatine kinase. The implications of these results are discussed in terms of current ideas about the inter-relationships between cell fusion, cell division and the accumulation of muscle proteins during differentiation. In particular they show that cell fusion is not essential for the attainment of normal levels of creatine kinase.