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雄激素受体二聚化和DNA结合所需的类固醇。NH2末端与类固醇结合结构域之间分子内相互作用的调节。

Steroid requirement for androgen receptor dimerization and DNA binding. Modulation by intramolecular interactions between the NH2-terminal and steroid-binding domains.

作者信息

Wong C I, Zhou Z X, Sar M, Wilson E M

机构信息

Laboratories for Reproductive Biology, University of North Carolina, Chapel Hill 27599.

出版信息

J Biol Chem. 1993 Sep 5;268(25):19004-12.

PMID:8360187
Abstract

Infection of Spodoptera frugiperda Sf9 insect cells with recombinant human androgen receptor (AR) baculovirus results in expression of a 118-kDa phosphoprotein that displays high affinity androgen binding and androgen-dependent targeting to the nucleus. Using the DNA mobility shift assay, specific in vitro binding of full-length AR to androgen response element DNA (ARE) requires intracellular hormone exposure. The ability of a variety of steroids to induce ARE binding paralleled their transcriptional potential. Certain antihormones, cyproterone acetate and RU486, promote ARE binding, but a pure antiandrogen, hydroxyflutamide, inhibits AR binding to ARE DNA. AR dimerization requires incubation of recombinant baculovirus-infected insect cells with androgen, but only when one or both components of the dimer contain the NH2-terminal domain. Based on the intensities of ARE binding and lack of binding to an ARE half-site, it appears that, unlike the glucocorticoid receptor, AR binds DNA primarily as a dimer. Thus, full-length baculovirus-expressed AR requires intracellular hormone exposure for dimerization and ARE binding to overcome inhibition imposed by the AR NH2-terminal domain. Antihormones with agonist activity promote dimerization and ARE binding, while a pure antiandrogen blocks AR DNA binding. It is concluded that intramolecular interactions between the NH2-terminal and steroid-binding domains are regulated by the specificity of hormone binding and modulate receptor dimerization and DNA binding.

摘要

用重组人雄激素受体(AR)杆状病毒感染草地贪夜蛾Sf9昆虫细胞,会导致一种118 kDa磷蛋白的表达,该蛋白具有高亲和力雄激素结合能力,并能依赖雄激素靶向细胞核。使用DNA迁移率变动分析,全长AR与雄激素反应元件DNA(ARE)的特异性体外结合需要细胞内激素暴露。多种甾体诱导ARE结合的能力与其转录潜力平行。某些抗激素,醋酸环丙孕酮和RU486,促进ARE结合,但一种纯抗雄激素药物,羟基氟他胺,抑制AR与ARE DNA的结合。AR二聚化需要用雄激素孵育重组杆状病毒感染的昆虫细胞,但只有当二聚体的一个或两个组分包含NH2末端结构域时才会发生。基于ARE结合的强度以及与ARE半位点缺乏结合,似乎与糖皮质激素受体不同,AR主要以二聚体形式结合DNA。因此,全长杆状病毒表达的AR需要细胞内激素暴露来实现二聚化和ARE结合,以克服AR NH2末端结构域施加的抑制作用。具有激动剂活性的抗激素促进二聚化和ARE结合,而纯抗雄激素药物则阻断AR与DNA的结合。结论是,NH2末端和甾体结合结构域之间的分子内相互作用受激素结合特异性的调节,并调节受体二聚化和DNA结合。

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