Retinoid-X receptor (RXR) differentially augments thyroid hormone response in cell lines as a function of the response element and endogenous RXR content.

Retinoid-X receptor (RXR) forms heterodimers with thyroid hormone receptor (TR) and significantly enhances binding to thyroid hormone response elements (TREs). Expression of RXR in a transient transfection assay augments the T3 response, but the influences of the specific cell line and TRE used have not been systematically studied. We determined RXR alpha and -beta augmentation of the TR alpha-mediated T3 response in transient transfection assays of COS, JEG, and mouse embryonic stem (ES) cell lines for a series of eight wild-type thyroid hormone (T3) and retinoic acid response elements (previously shown to bind TR). RXR augmented T3-induced expression in COS and ES cells (1.5- to 4-fold greater expression with added RXR compared to TR alone), but had minimal effect on augmentation of response in JEG cells. For most elements studied there was a proportional augmentation of basal and T3-stimulated expression. TREs from rat GH and laminin-B1, however, had relatively higher levels of T3-induced expression as a result of RXR cotransfection (T3 induction ratios increased 2-fold or greater). Previous characterization of these elements demonstrates that they contain more than two hexameric binding domains, all of which can simultaneously bind TR. The influence of endogenous RXR expression in a cell line on RXR augmentation of the T3 response was determined. RXR alpha and -beta messenger RNA (mRNA) expression was quantitated by Northern blot in each cell line. COS and JEG cells expressed almost exclusively RXR alpha mRNA, although expression was almost 2-fold higher in JEG compared to COS cells (12 +/- 2.5 vs. 6.8 +/- 0.5 density units relative to actin; mean +/- SE; P < 0.05). ES cells expressed only RXR beta mRNA, but at a very low level (0.4 +/- 0.1). Nuclear extracts prepared from JEG and COS cells augmented TR binding proportional to the endogenous RXR mRNA expression, and the heterodimer band was supershifted by the addition of antibody to RXR alpha. Nuclear extracts from ES cells had no detectable TR heterodimer binding to a range of response elements. RXR augmentation of the T3 response differs among cell lines and is greater in those with reduced endogenous RXR. Furthermore, the functional augmentation of the T3 response ratio by RXR is likely to require additional sequences contained in only a subset of elements in which RXR augments TR binding.