Retinoic acid receptor alpha suppresses polyomavirus transformation and c-fos expression in rat fibroblasts.

To explore the molecular mechanisms by which retinoic acid inhibits oncogenic transformation, we have examined the effects of retinoic acid on the polyomavirus-induced transformation of rat fibroblasts. Treatment of rat F111 fibroblasts with high concentrations of retinoic acid (10(-6) M) partially inhibited the ability of polyomavirus to induce dense focus formation (50-70%). This effect was not secondary to a retinoic acid-dependent block of cellular proliferation. To address the role of the retinoic acid receptor (RAR-alpha) in mediating the transformation-inhibitory effect of retinoic acid, we have overexpressed either RAR-alpha or cellular retinoic acid-binding protein I (CRABP) cDNAs in F111 cells. Introduction of a CRABP I expression vector did not alter the responsiveness of F111 cells to retinoic acid in any detectable fashion. In contrast, overexpression of RAR-alpha increased the sensitivity of F111 cells to the transformation-inhibitory action of retinoic acid by 10- to 100-fold. At high concentrations, retinoic acid inhibited transformation of F111-RAR cells by polyomavirus by about 90%. At near physiological concentrations, retinoic acid inhibited transformation by 25-50% in F111-RAR cells but not in control cells. Retinoic acid did not inhibit either the synthesis of polyoma middle T (mT) or pp60c-src, the cellular target for mT action, or the formation of mT:pp60c-src:PI-3 kinase (phosphatidylinositol-3 kinase) complexes. Therefore, RAR-alpha was not acting as a negative regulator of expression of either the polyomavirus middle T oncogene or the cellular proto-oncogene, c-src. It seems likely that RAR-alpha regulates the expression of cellular genes whose products interact in some way with mT-regulated signaling pathways, leading to a ligand-dependent suppression of polyoma transformation. In addition, RAR-alpha overexpression selectively inhibits the serum-stimulated expression of the c-fos gene, but does not affect the expression of a number of other serum- and polyomavirus-inducible genes including c-jun, junB, c-myc and actin.