Abstract
The human max protein has been shown to form heterodimers with myc family proteins. The ability of myc+max heterodimers to act as sequenceβspecific transcriptional activators appears to be essential for the oncogenic activity of myc. max (also called myn in murine cells) can homodimerize to form a transcriptionally inactive complex. We previously showed that in mouse 10T1/2 cells, a combination of activated ras, cβmyc, and a mutant form of p53 can cooperate in the induction of cellular transformation and metastasis. In the study presented here, we tested the hypothesis that expression of the myn gene may play a role in this cooperative process. Analysis of myn mRNA in these cell lines revealed the presence of a major 2.0βkb RNA species. This message and the 21β and 22βkDa myn polypeptides it encodes were significantly over expressed in cells transformed by activated ras a lone, by ras in combination with cβmyc or mutant p53, or by ras plus myc plus mutant p53, in comparison with untransformed parental 10T1/2 cells. We also found that induction of ras expression in a cell line harboring an inducible ras gene was accompanied by an increase in myn mRNA expression. Interestingly, cotransfection of 10T1/2 cells with ras and myn inhibited cellular transformation in a focusβforming assay when compared with transfection with ras alone. These results suggest a role for ras in the regulation of myn gene expression and suggest a model of oncogene cooperativity in which the relative levels of myc and myn gene expression can influence ras transformation of mouse 10T1/2 cells. Β© 1994 WileyβLiss, Inc.