Targeted Disruption of Retinoic Acid Receptor α (RARα) and RARγ Results in Receptor-Specific Alterations in Retinoic Acid-Mediated Differentiation and Retinoic Acid Metabolism

Abstract

F9 embryonic teratocarcinoma stem cells differentiate into an epithelial cell type called extraembryonic endoderm when treated with retinoic acid (RA), a derivative of retinol (vitamin A). This differentiation is presumably mediated through the actions of retinoid receptors, the RARs and RXRs. To delineate the functions of each of the different retinoid receptors in this model system, we have generated F9 cell lines in which both copies of either the RAR α gene or the RAR γ gene are disrupted by homologous recombination. The absence of RAR α is associated with a reduction in the RA-induced expression of both the CRABP-II and Hoxb-1 (formerly 2.9) genes. The absence of RAR γ is associated with a loss of the RA-inducible expression of the Hoxa-1 (formerly Hox-1.6), Hoxa-3 (formerly Hox-1.5), laminin B1, collagen IV (α 1), GATA-4, and BMP-2 genes. Furthermore, the loss of RAR γ is associated with a reduction in the metabolism of all-trans-RA to more polar derivatives, while the loss of RAR α is associated with an increase in metabolism of RA relative to wild-type F9 cells. Thus, each of these RARs exhibits some specificity with respect to the regulation of differentiation-specific gene expression. These results provide an explanation for the expression of multiple RAR types within one cell type and suggest that each RAR has specific functions.