Flavopiridol-induced apoptosis is mediated through up-regulation of E2F1 and repression of Mcl-1.

Flavopiridol treatment can lead to apoptosis via a mechanism that has been associated with down-regulation of Mcl-1. Likewise, recent studies from our laboratory demonstrated that E2F1 leads to transcriptional repression of Mcl-1 and subsequently apoptosis. Given the ability of cyclin/cyclin-dependent kinase 2 antagonists to kill transformed cells, we surmised that flavopiridol may stabilize E2F1 and enhance apoptosis via repression of Mcl-1. Here we demonstrate that flavopiridol is associated with a dose-dependent increase in E2F1 protein levels, a corresponding reduction in Mcl-1, and apoptosis in H1299 lung carcinoma cells. Treatment of H1299 cells with 200 nM flavopiridol resulted in the rapid elevation of E2F1 and reduction in Mcl-1 levels within 12 h of treatment. The elevation of E2F1 and reduction in Mcl-1 clearly preceded the induction of apoptosis. Both H1299 and NIH3T3 fibroblast cell lines that constitutively express Mcl-1 under the control of the cytomegalovirus promoter have no reductions in Mcl-1 levels with flavopiridol treatment and are resistant to apoptosis induced by flavopiridol. H1299 cells that have E2F1 deleted through RNAi vector targeting are less sensitive to flavopiridol-induced cell death, and likewise, mouse embryo fibroblast cell lines deficient in E2F1 are less susceptible to apoptosis induced by flavopiridol compared with wild-type control fibroblasts. These data suggest that apoptosis induced by flavopiridol is dependent on the enhancement of E2F1 levels and the repression of Mcl-1.