Seol W, Choi H S, Moore D D
Department of Molecular Biology, Massachusetts General Hospital, Boston, 02114, USA.
Mol Endocrinol. 1995 Jan;9(1):72-85. doi: 10.1210/mend.9.1.7760852.
We have used a yeast genetic system to isolate cDNAs encoding proteins that specifically interact with the ligand-binding domain of human retinoid X receptor-alpha (RXR alpha). A number encoded portions of two known RXR heterodimer partners, the retinoic acid receptor (RAR) and the peroxisome proliferator activated receptor. Of four additional RXR-interacting proteins (RIPs) selected for further study two, RIP14 and RIP15, are previously unidentified orphan members of the nuclear receptor superfamily. Two others, RIP110 and RIP13, do not show significant similarities to previously reported proteins. RIP110 interacts with LexA-RXR only in yeast cells grown in the presence of the RXR ligand 9-cis-RA, while the interaction of the four receptor superfamily members and RIP13 is unaffected by the presence or absence of 9-cis-RA. RIP110 and RIP13 also interact in yeast with several other members of the receptor superfamily, but RIP14 and RIP15 interact only with RXR. Analysis of larger cDNA clones demonstrates that there are at least two isoforms of RIP14 that differ in the N-terminal (A and B) and hinge (D) domains. Northern blot analysis indicates that RIP14 is expressed specifically in liver and kidney, while RIP15 is expressed in every tissue tested. Both RIP14 and 15 bind as heterodimers with RXR to the RA response element (RARE) from the promoter of the RAR beta 2 isoform (the beta RARE), and RIP14 and RXR heterodimers also bind the ecdysone response element from the Drosophila heat shock protein 27 promoter. Both heterodimers also bind to several synthetic RAREs and other elements. In cotransfections, neither RIP14 nor RIP15 trans-activates a reporter containing multiple copies of the beta RARE under any of a variety of conditions, suggesting that their activities are dependent on the binding of as yet unidentified specific ligands or on activation by other processes.
我们利用酵母遗传系统分离出了编码与人类维甲酸X受体α(RXRα)配体结合域特异性相互作用的蛋白质的cDNA。其中一些编码了两种已知的RXR异源二聚体伙伴视黄酸受体(RAR)和过氧化物酶体增殖物激活受体的部分序列。在另外挑选出用于进一步研究的四种与RXR相互作用的蛋白质(RIP)中,RIP14和RIP15是核受体超家族中此前未被鉴定的孤儿成员。另外两种,RIP110和RIP13,与此前报道的蛋白质没有显著相似性。RIP110仅在存在RXR配体9-顺式视黄酸的情况下生长的酵母细胞中与LexA-RXR相互作用,而四种受体超家族成员与RIP13的相互作用不受9-顺式视黄酸存在与否的影响。RIP110和RIP13在酵母中也与受体超家族的其他几个成员相互作用,但RIP14和RIP15仅与RXR相互作用。对更大的cDNA克隆的分析表明,RIP14至少有两种异构体,它们在N端(A和B)和铰链区(D)结构域有所不同。Northern印迹分析表明,RIP14在肝脏和肾脏中特异性表达,而RIP15在所测试的每个组织中都有表达。RIP14和15都作为与RXR的异源二聚体与来自RARβ2异构体启动子的视黄酸反应元件(RARE)(βRARE)结合,并且RIP14和RXR异源二聚体也与果蝇热休克蛋白27启动子的蜕皮激素反应元件结合。两种异源二聚体也与几种合成的RARE和其他元件结合。在共转染中,在多种条件下,RIP14和RIP15都不会激活含有多个βRARE拷贝的报告基因,这表明它们的活性依赖于尚未鉴定的特异性配体的结合或其他过程的激活。
