Turnover of myosin heavy and light chains in cultured embryonic chick cardiac and skeletal muscle

Abstract

The relative rates of synthesis and breakdown of myosin heavy and light chains were studied in primary cell cultures of embryonic chick cardiac and skeletal muscle. Measurements were made after 4 days in culture, at which time both skeletal and cardiac cultures were differentiated and contracted spontaneously. Following a 4-hr pulse of radioactive leucine, myosin and its heavy and light chains were extracted to 90% or greater purity and the specific activities of the proteins were determined. In cardiac muscle, myosin heavy chains were synthesized approximately 1.6 times the rate of myosin light chains, and in skeletal muscle, heavy chains were synthesized at approximately 1.4 times the rate of light chains. Relative rates of degradation of muscle proteins were determined using a dual-isotope technique. In general, the soluble and myofibrillar proteins of both types of muscle had decay rates proportional to their molecular weights (larger proteins generally had higher decay rates) based on analyses utilizing sodium dodecyl sulfate-polyacrylamide gel electrophoresis. A notable exception to this general rule was myosin heavy chains, which had decay rates only slightly higher than the myosin light chains. Direct measurements on purified proteins indicated that the heavy chains of myosin were turning over at a slightly greater rate (approximately 20%) than the myosin light chains in both cardiac and skeletal muscle. The reasons for the apparent discrepancy between these measurements of myosin heavy and light chain synthesis and degradation are discussed.