雄激素受体与选择性雄激素反应元件结合的结构基础。
Structural basis of androgen receptor binding to selective androgen response elements.
作者信息
Shaffer Paul L, Jivan Arif, Dollins D Eric, Claessens Frank, Gewirth Daniel T
机构信息
Department of Biochemistry, Duke University Medical Center, Durham, NC 27710, USA.
出版信息
Proc Natl Acad Sci U S A. 2004 Apr 6;101(14):4758-63. doi: 10.1073/pnas.0401123101. Epub 2004 Mar 22.
Abstract
Steroid receptors bind as dimers to a degenerate set of response elements containing inverted repeats of a hexameric half-site separated by 3 bp of spacer (IR3). Naturally occurring selective androgen response elements have recently been identified that resemble direct repeats of the hexameric half-site (ADR3). The 3D crystal structure of the androgen receptor (AR) DNA-binding domain bound to a selective ADR3 reveals an unexpected head-to-head arrangement of the two protomers rather than the expected head-to-tail arrangement seen in nuclear receptors bound to response elements of similar geometry. Compared with the glucocorticoid receptor, the DNA-binding domain dimer interface of the AR has additional interactions that stabilize the AR dimer and increase the affinity for nonconsensus response elements. This increased interfacial stability compared with the other steroid receptors may account for the selective binding of AR to ADR3 response elements.
摘要
类固醇受体以二聚体形式与一组简并的反应元件结合,这些反应元件包含由3个碱基对间隔区(IR3)隔开的六聚体半位点反向重复序列。最近已鉴定出天然存在的选择性雄激素反应元件,其类似于六聚体半位点的直接重复序列(ADR3)。与选择性ADR3结合的雄激素受体(AR)DNA结合结构域的三维晶体结构显示,两个原体呈现出意外的头对头排列,而非与具有相似几何结构的反应元件结合的核受体中预期的头对尾排列。与糖皮质激素受体相比,AR的DNA结合结构域二聚体界面具有额外的相互作用,可稳定AR二聚体并增加对非共有反应元件的亲和力。与其他类固醇受体相比,这种增加的界面稳定性可能解释了AR对ADR3反应元件的选择性结合。
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