Viral transformation of chick myogenic cells: The relationship between differentiation and the expression of the SRC gene

Abstract

When chick embryo presumptive muscle cells are transformed at 35 °C with a temperature-sensitive mutant of Rous sarcoma virus, tsLA29, they do not undergo myogenic differentiation. When these cultures are shifted to 41 °C the cells revert to a phenotypically normal state and fuse into myotubes. The synthesis of myosin, the appearance of myosin mRNA active in vitro, and the synthesis of acetylcholinesterase (AChE) were all activated following a shift from 35 °C to 41 °C. The activation of myosin synthesis also occurred in cultures prevented from fusing by calcium deprivation. After myosin synthesis had been initiated at 41 °C, however, it could not be suppressed by shifting the cultures back to 35 °C. [ 3H]Thymidine labeling and autoradiography demonstrated that DNA synthesis in tsLA29-infected myoblasts ceased within 24 h after the shift to 41°C. A kinetic analysis of the withdrawal of these cells from the cell cycle indicates that at least a fraction of the cells do not need to traverse a complete cell cycle prior to terminal differentiation.