Inhibition of p53-mediated transcriptional responses by mithramycin A

Abstract

In the present work, we show that mithramycin A, a drug that is currently used for the treatment of patients with Paget's disease of the bone as well as with several forms of cancer, is a strong activator of the tumor suppressor p53 protein in human hepatoma cells. The time course of p53 activation by mithramycin A was similar to the known chemotherapeutic compound 5-fluorouracil (5-FU). Both 5-FU and mithramycin A induced site-specific phosphorylation of p53 at serine 15. However, in contrast to 5-FU, mithramycin A failed to activate p53 target genes including the cell cycle inhibitor p21^Cip1 gene as well as the proapoptotic genes PUMA (p53-upregulated mediator of apotosis) and BAK (bcl2-homologous antagonist/killer) and blocked the induction of the above genes by 5-FU. Using transactivation assays in Sp1-deficient cells, we showed that mithramycin A inhibited the transcriptional activation of the p21^Cip1 and PUMA promoters by Sp1 and p53. Using chromatin immunoprecipitation assays and a novel protein–protein interaction assay based on biotinylation in vivo, we established that 5-FU enhanced the formation of p53–Sp1 complexes in solution and the subsequent recruitment of both factors to the p21^Cip1 promoter. Mithramycin A also enhanced the recruitment of p53 to the distal p21^Cip1 promoter but totally blocked the recruitment of Sp1 to the proximal p21^Cip1 promoter. Our findings suggest that inhibition of Sp1 binding to the promoters of several p53 target genes, such as the p21^Cip1 gene as well as certain proapoptotic genes, by mithramycin A, prevents the transcriptional induction of these genes by p53 and propose a mechanism that could account for some of the tumor suppressing and antiapoptotic effects of mithramycin A.