Phenotypic expression in chick erythrocyte X rat myoblast hybrids and in chick myoblast X rat myoblast hybrids

Abstract

Attempts were made to reprogram chick erythrocyte nuclei to specify the synthesis of chick myosin. Chick erythrocytes were fused with rat myogenic cells with the aid of UV-inactivated Sendai virus. In the heterokaryons and hybrid myotubes which resulted from this fusion, the erythrocyte nuclei resumed RNA synthesis and formed nucleoli. Although some new chick antigens developed in those myotubes which contained fully reactivated chick erythrocyte nuclei, accumulation of chick myosin could not be detected by immunological methods. Neither small heterokaryons nor large hybrid myotubes which were actively synthesizing rat myosin reacted with antibodies directed against chick myosin. A small number of mononucleated cells, believed to be synkaryons formed by mitotic division of heterokaryons, did, however, react strongly with antibodies directed against chick myosin and showed a cross striation typical of skeletal muscle. The frequency of such cells was too low, however, to permit karyological analysis or further characterization of the antigen. Hybrids between chick myoblasts and rat myoblasts produced both chick and rat myosin thus indicating that simultaneous translation of chick and rat mRNA for myosin in a common cytoplasm was possible. In summary the evidence obtained suggested that reprogramming of chick erythrocyte nuclei, if it did occur in the present system, was a rare phenomenon. The possibility that hybrids between chick erythrocytes and rat myoblasts expressed markers typical of an erythroid phenotype was examined by immune staining with antibodies directed against chick haemoglobin. The results suggested that haemoglobin was introduced into hybrid cells by erythrocytes which failed to lyse before fusion. The intensity of this immune fluorescence decreased with increasing time after fusion. The rate at which this decrease occurred was not affected by inhibition of RNA synthesis. Thus, there was no evidence for the accumulation of haemoglobin in the hybrid cells.