Alterations in surface proteins during myogenesis of a rat myoblast cell line.

Lactoperoxidase-catalyzed iodination and SDS-polyacrylamide gradient gel electrophoresis were used to examine the surface proteins of cultures of an embryonic rat myoblast cell line during myogenesis. We observed several consistent alterations in the proteins iodinated during the periods of alignment and fusion. In addition, we examined the surface proteins of cultures where fusion was inhibited by phospholipase C (PLC), and of cultures of several nonfusing variants of our original line. Many of the proteins which appeared during “normal” myogenesis were not seen in PLC-treated cultures, while the appearance and loss of three low molecular weight proteins were accelerated. The nonfusing variants often accumulated large amounts of many of the proteins which appeared during alignment in normal cultures. This accumulation was demonstrated by Coomassie blue stain intensities as well as by the extent of surface iodination. The three low molecular weight proteins were heavily iodinated in one class of variant, but did not disappear as in normal cultures. One protein of apparent molecular weight 66,000 (66K) was iodinated during alignment but was inaccessible during fusion. Coomassie blue staining of the gels showed that the actual appearance and disappearance of the 66K protein band from the membrane were coincident with alignment and fusion. While this band was not seen in fluorograms from gels of PLC-treated cultures and some of the nonfusing variants, a 66K band was invariably stained by Coomassie blue, and in PLC-treated cultures appeared to accumulate with time. In the variants there appeared to be a correlation between the availability of the 66K protein for iodination and the appearance of the low molecular weight proteins.