Cloning and Characterization of Mouse RIP140, a Corepressor for Nuclear Orphan Receptor TR2

ABSTRACT The mouse homologue of the human receptor-interacting protein 140 (RIP140) was isolated from a mouse embryonic cDNA library in yeast two-hybrid screening experiments by using the ligand binding domain (LBD) of nuclear orphan receptor TR2 as the bait. The receptor-interacting domains of mouse RIP140 were mapped to the regions containing the LXXLL motif (where L is leucine and X is any amino acid), and the RIP140-interacting domain of TR2 was mapped to its C-terminal 10- to 20-amino-acid sequence, a putative activation function 2 (AF-2) region. In a GAL4 reporter system and a reporter driven by the proximal region of the TR2 promoter, RIP140 functioned as a corepressor for both a GAL4 DNA binding domain (BD)–TR2 fusion and the wild-type receptor. When tethered to the BD of GAL4, RIP140 exerted a trans-repressive effect on the GAL4 reporter. In addition, RIP140 suppressed the retinoic acid (RA) receptor-mediated RA induction in a dose-dependent manner. Finally, it was demonstrated that in the presence of RIP140, a cytosolic, green fluorescent protein-tagged TR2 LBD translocated into the nucleus, and TR2 and RIP140 were coimmunoprecipitated from the cell extract, indicating that the interaction between RIP140 and the LBD of TR2 occurred in vivo. The potential biological role of RIP140 in TR2-modulated transcriptional activity is discussed.

Distinct expression patterns and biological activities of two isoforms of the mouse orphan receptor TR2

An alternatively spliced variant of a testis-specific nuclear orphan receptor TR2-11 was identified and designated as TR2-11-t. As a result of retaining intron 5 of this gene, TR2-11-t mRNA encoded a truncated receptor with the complete ligand-binding domain deleted. Protein expression of both isoforms was confirmed using a prokaryotic expression system. In the mouse, the expression of the two TR2 isoforms was elevated in the testis with distinct profiles beginning at puberty. TR2-11 expression increased at postnatal day 18, peaked between day 20 and day 24 and remained at high levels throughout adulthood, whereas TR2-11-t expression was elevated transiently at postnatal day 24. Among separated primary germ cells and established testicular cell lines, TR2-11 was expressed highly in meiotic and postmeiotic germ cells and weakly in a Leydig cell line and a germ cell line, but not expressed in a Sertoli cell line. In contrast, TR2-11-t was expressed at a much lower level in all the testicular cell types examined. In adult testes blocked at germ cell development by vitamin A depletion or hypophysectomy, TR2-11 expression was dramatically reduced whereas TR2-11-t was highly elevated. Based upon the RNA expression patterns of these isoforms, it was suggested that TR2-11 was specific to meiotic and postmeiotic germ cells whereas TR2-11-t was enriched in early germ cell populations such as premeiotic cells. The biological activities of TR2-11 and TR2-11-t on a direct repeat 5-type retinoic acid (RA) response element (RARE)-containing reporter gene was examined in Cos cells. TR2-11 repressed RA induction of this reporter whereas TR2-11-t enhanced RA induction of the same reporter, and the opposite biological effects of these isoforms were dose-dependent. Gel-shift experiments provided evidence for a direct interaction of TR2-11, but not TR2-11-t, with DNA fragments containing this RARE. Opposite roles of TR2-11 and TR2-11-t on RA induction of promoters containing this particular RARE are suggested. Journal of Endocrinology (1997) 152, 245–255