CLONAL ANALYSIS OF VERTEBRATE MYOGENESIS .6. ACETYLCHOLINESTERASE AND ACETYLCHOLINE-RECEPTOR IN MYOGENIC AND NON-MYOGENIC CLONES FROM CHICK-EMBRYO LEG CELLS

Myogenic clones grown in vitro from cells of 4-, 6-, and 12-day chick embryo leg buds demonstrate reproducible stage-specific characteristics of morphology, extent of myotube formation, and culture medium requirements for differentiation, suggesting heterogeneity in the myogenic cell populations of the developing limb. To determine whether there is heterogeneity in the cytodifferentiation of different muscle colony types, clones have been examined for the appearance of two muscle-specific gene products-acetylcholinesterase (AChE) and acetylcholine receptor (AChR). AChE (detected by cytochemical reaction) and AChR (detected by autoradiography of [125I]α-bungarotoxin binding) appeared in myotubes of all muscle colony types, and also appeared in about 5% of the mononucleated cells of all muscle colonies; but neither were detectable in cells of nonfused clones (colonies containing no myotubes). The results suggest that all muscle colony-forming cell types have equivalent capacities to elaborate muscle-specific gene products once the process of differentiation is initiated. However, when putative muscle colony-forming cells are grown under certain conditions that do not permit cell fusion (e.g., conditioned medium-requiring clones grown in fresh medium), mononucleated cells do not accumulate AChE or AChR. Conditioned medium-dependent differentiation thus differs from the fusion-specific processes affected by Ca2+ deprivation and phospholipase C treatment, since in these cases mononucleated cells exhibit differentiated functions. The apparent cytodifferentiation (without fusion) of some mononucleated cells within muscle colonies in which most mononucleated cells continue to proliferate raises questions concerning the control of myoblast differentiation and its relationship to the cell cycle and to fusion. © 1979.