Abstract: | Several authors have described the extinction of myogenic competence in hybrids produced by fusion of myogenic and non-myogenic cells. Interpretations of such experiments rest upon the assumption that extinction does not occur with any appreciable frequency as a non-specific consequence of the cell hybridization process itself. In order to test this assumption we have analyzed the myogenic competence of over 140 independent homotypic hybrid clones produced by PEG-mediated fusion of rat L6 myoblasts. Based upon an evaluation of myotube formation in hybrid colonies, we demonstrate that 99% of primary hybrid clones are myogenic. The fact that 97% of secondary hybrid colonies also differentiate indicates that myogenic competence is a stable characteristic of the hybrids. Four hybrid clones were isolated and expanded for analyses of chromosome numbers, myotube formation, creatine kinase activities, and microfluorimetric DNA determinations of myotube nuclei. Our results demonstrate that polyploid homotypic hybrid cells produced by fusion of non-neoplastic, developmentally determined rat myoblasts retain and express their program of differentiation. This work provides a foundation for future studies which will investigate the expression of myogenic properties in hybrids between myogenic and non-myogenic cells. |