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Complex effects of rexinoids on ligand dependent activation or inhibition of the xenobiotic receptor, CAR
BACKGROUND: CAR/RXR heterodimers bind a variety of hormone response elements and activate transcription in the absence of added ligands. This constitutive activity of murine CAR can be inhibited by the inverse agonist ligand androstanol or increased by the agonist TCPOBOP. RXR agonists activate some RXR heterodimer complexes, which are termed permissive, while other non-permissive complexes are not responsive to such ligands. RESULTS: Direct protein-protein interaction studies demonstrate that the RXR agonist 9-cis-RA increases interaction of CAR/RXR heterodimers with the coactivator SRC-3, but also inhibits the ability of TCPOBOP to increase and androstanol to decrease coactivator binding. CAR transactivation of a response element with a five nucleotide spacer (DR-5) is unaffected by 9-cis-RA or the synthetic RXR agonist LG1069. In agreement with the inhibitory effect observed in vitro, these rexinoids block both the TCPOBOP mediated transactivation of this element and the androstanol dependent inhibition. In contrast, CAR transactivation of other response elements is increased by rexinoids. Stable expression of CAR in a HepG2 derived cell line increases expression of the endogenous CAR target CYP2B6. This expression is further increased by TCPOBOP but decreased by either androstanol or LG1069, and LG1069 blocks the stimulatory effect of TCPOBOP but not the inhibitory effect of androstanol. CONCLUSION: We conclude that CAR/RXR heterodimers are neither strictly permissive nor non-permissive for RXR signaling. Instead, rexinoids have distinct effects in different contexts. These results expand the potential regulatory mechanisms of rexinoids and suggest that such compounds may have complex and variable effects on xenobiotic responses
Phosphorylation of MNAR Promotes Estrogen Activation of Phosphatidylinositol 3-Kinase
Estrogen actions are mediated by a complex interface of direct control of gene expression (the so-called âgenomic actionâ) and by regulation of cell signaling/phosphorylation cascades, referred to as the ânongenomic,â or extranuclear, action. We have previously described the identification of MNAR (modulator of nongenomic action of estrogen receptor) as a novel scaffold protein that regulates estrogen receptor alpha (ERα) activation of cSrc. In this study, we have investigated the role of MNAR in 17ÎČ-estradiol (E2)-induced activation of the phosphatidylinositol 3-kinase (PI3K)/Akt pathway. Consistent with our previous results, a direct correlation was established between MNAR expression levels and E2-induced activation of PI3 and Akt kinases. Endogenous MNAR, ERα, cSrc, and p85, the regulatory subunit of PI3 kinase, interacted in MCF7 cells treated with E2. The interaction between p85 and MNAR required activation of cSrc and MNAR phosphorylation on Tyr 920. Consequently, the mutation of this tyrosine to alanine (Y920A) abrogated the interaction between MNAR and p85 and the E2-induced activation of the PI3K/Akt pathway, which was required for the E2-induced protection of MCF7 cells from apoptosis. Nonetheless, the Y920A mutant potentiated the E2-induced activation of the Src/MAPK pathway and MCF7 cell proliferation, as observed with the wild-type MNAR. These results provide new and important insights into the molecular mechanisms of E2-induced regulation of cell proliferation and apoptosis