Activation of myosin synthesis in fusing and mononucleated myoblasts

Abstract

The synthesis of the heavy chain subunit of myosin has been studied in breast muscle myoblasts from embryos of the Japanese quail, Coturnix coturnix japonica, during differentiation of these cells in culture. Specifically, these experiments were done to examine the roles of myoblast fusion and the regulation of myoblast cell division in the control of myosin heavy chain synthesis. The rates of myosin heavy chain synthesis have been quantitated in cultures of fusing myoblasts by measurement of the incorporation of radioactive leucine and valine precursors into myosin heavy chain, and simultaneous determination of the intracellular specific activities of these radioactive amino acids. These measurements demonstrate that, prior to fusion, dividing myoblasts synthesize little, if any, myosin heavy chain, but that during the period of myoblast fusion, myosin heavy chain synthesis becomes activated at least 50 to 100-fold. Myosin heavy chain synthesis was also measured in mononucleated myoblasts inhibited from fusing by the presence of EGTA in the culture medium. These experiments demonstrate that myosin synthesis can be activated in mononucleated myoblasts to reach rates similar to those attained in fused myoblasts. This activation occurs under conditions in which EGTA-inhibited myoblasts were induced to withdraw from the cell division cycle by reducing the concentrations of the serum and embryo extract components of the culture medium or by prior “conditioning” of standard growth medium. These experiments, therefore, establish that the activation of myosin synthesis in breast muscle myoblasts does not require fusion, but indicate that activation is co-ordinated with the withdrawal of myoblasts from the cell division cycle.