Abstract
The v-Myb DNA-binding domain differs from that of c-Myb mainly by deletion of the first of three repeats. This truncation correlates with efficient oncogenic transformation and a decrease in DNA-binding activity. Here we demonstrate that the D-type cyclins, cyclin D1 and D2 in particular, specifically inhibit transcription when activated through the v-Myb DNA-binding domain, but not the c-Myb DNA-binding domain. Analysis of a cyclin D1 mutant and a dominant-negative CDK4 mutant implied that this repression is independent of complex formation with a CDK partner. Association of cyclin D1 and D2 with the Myb DNA-binding domain could be demonstrated. Increased levels of cyclin D1 and D2 resulted in a stabilization of the Myb proteins, but not in an alteration in binding of the Myb proteins to DNA. These results highlight an unexpected role for cyclin D as a CDK-independent repressor of transcriptional activation by v-Myb but not c-Myb. This differential effect of D-type cyclins on v-Myb and c-Myb might help to explain the mechanism underlying the oncogenic activity of v-Myb, which appears to be a stronger transcriptional activator following the TPA-induced differentiation of transformed monoblasts when cyclin D1 and D2 are down-regulated.