The proto-oncogene Bc16 inhibits apoptotic cell death in differentiation-induced mouse myogenic cells.

The Bc16 gene is located at chromosomal band 3q27, a breakpoint for translocation that frequently occurs in B cell lymphomas. Bc16 has been found to be preferentially expressed in germinal center B cells, and expression of this gene has been shown to be essential for germinal center formation in vivo. The physiological function of Bc16 and its role in lymphomagenesis, however, are not yet known. Since significant expression of Bc16 has been demonstrated in skeletal muscle, we have utilized a differentiation-inducible mouse myogenic cell line, C2C12, to elucidate the function of the Bc16 gene product. Expression of Bc16 mRNA was very low in growing myocytes, but was increased in differentiating myocytes cultured in serum-starved medium. Incubation of these cells with cytokines or chemicals that are known to block differentiation suppressed this increased Bc16 message abundance, indicating that Bc16 induction is related to the process of terminal differentiation in muscle cells. While a fraction of myocytes is known to undergo apoptosis after serum-starvation to induce differentiation, adenovirus-mediated overexpression of Bc16 enhanced the viability of the differentiating cells by preventing the apoptosis. High levels of Bc16 antisense mRNA expression induced substantial apoptosis during the differentiation of C2C12 cells, but this was effectively prevented by infection with adenovirus that expressed Bc16 sense mRNA. These results indicate that Bc16 acts to prevent apoptotic cell death in differentiating myocytes. The deregulation of expression of this antiapoptotic gene may also contribute to the development of B cell lymphomas.