Retinoic acid differentially regulates retinoic acid receptor-mediated pathways in the Hep3B cell line.

Retinoic acid (RA) up-regulates retinoic acid receptor beta (RAR beta) gene expression in a variety of cell lines. Whether up-regulation of the RAR beta gene reflects increased activity in a RAR beta-mediated biological process is unclear since RAR beta tends to heterodimerize with retinoid x receptor (RXR). In F9 teratocarcinoma cell line, RA-induced differentiation is accompanied by increased expression of the RAR beta, RXR alpha, and alpha-fetoprotein (AFP) genes. Previously, we have shown that the RA-mediated regulation of the AFP gene is through RXR alpha homodimers. In contrast to F9 cells, Hep3B is unique in that the AFP gene is down-regulated by RA in a manner reminiscent of down-regulation of AFP in postfetal liver. In this paper, we have examined the RA-mediated regulation of the RAR, RXR, peroxisome proliferator-activated receptor (PPAR), and AFP genes in Hep3B cells. RA induced the expression of RAR alpha, beta, and gamma mRNA in Hep3B cells. However, the expression of RXR alpha mRNA was down-regulated, and the levels of RXR beta and RXR gamma mRNA remained unchanged after RA treatment. In addition, the expression of the PPAR alpha, beta, and gamma genes was also unchanged. Gel retardation assays demonstrated that RA decreased the overall binding of nuclear receptors to the RA and PPAR response elements. By super-shift assays using specific anti-RAR and -RXR antibodies, RA treatment decreased the amount of RXR alpha while increasing the amount RAR beta bound to retinoic acid response element-DR1 (direct repeat with spacer of one nucleotide), indicating the levels of RAR/RXR heterodimer, RXR/RXR homodimer, or RAR/RAR homodimers were altered upon RA treatment of Hep3B cells. In addition, the RA-mediated reduction of RXR alpha in part results in down-regulation of the AFP gene. Our data indicates that RA exerts its effects by differentially regulating its own receptor gene expression.