Cloned myogenic cells during differentiation: membrane biochemistry and fine structural observations.

Isolated membranes from clones of a permanent line of myogenic cells, L₆, were studied during three temporally consecutive stages of growth: (1) exponentially growing cells, (2) intermediate phase cells, and (3) fused cells. Membrane fractions have been isolated on a sucrose gradient and studied with respect to morphology, enzymatic activity, density, and α-bungarotoxin binding. Changes as a function of differentiation were seen both in the density of the fractions and in the specific activities of several proteins. Membranes characterized by specific enzyme markers generally sediment at higher densities when isolated from exponentially growing cells than when isolated from fused cells. The change in density is especially pronounced for the 5′ nucleotidase, TPNH-dependent cytochrome c reductase, and β-N-acetylglucosaminidase. The specific activity of adenylate cyclase increases in the intermediate phase cells and remains high in the fused cells; that of TPNH-dependent cytochrome c reductase decreases in the intermediate phase cells and remains low in the fused cells. The binding of α-bungarotoxin increases dramatically following fusion. On the other hand, there was little change, less than a factor of two, in the specific activities of a number of enzymes during growth or following fusion. In this group are hexose-6-phosphatase, acid phosphatase, Na⁺,K⁺-activated ATPase, and 5′ nucleotidase. Both our morphological and our biochemical studies suggest that in the exponentially growing cells, the ribosomes are associated largely with membranes, whereas in the fused cells, the ribosomes are largely free.