配体结合结构域对糖皮质激素和孕激素受体亚细胞定位的控制是通过与四肽重复蛋白的不同相互作用介导的。
Control of glucocorticoid and progesterone receptor subcellular localization by the ligand-binding domain is mediated by distinct interactions with tetratricopeptide repeat proteins.
作者信息
Banerjee Ananya, Periyasamy Sumudra, Wolf Irene M, Hinds Terry D, Yong Weidong, Shou Weinian, Sanchez Edwin R
机构信息
Department of Physiology and Pharmacology, Center for Diabetes and Endocrine Research, University of Toledo College of Medicine, 3035 Arlington Avenue, Toledo, Ohio 43614-5804, USA.
出版信息
Biochemistry. 2008 Sep 30;47(39):10471-80. doi: 10.1021/bi8011862. Epub 2008 Sep 5.
The TPR proteins FKBP52, FKBP51, Cyp40, and PP5 are found in steroid receptor (SR) complexes, but their receptor-specific preferences and roles remain unresolved. We have undertaken a systematic approach to this problem by examining the contribution of all four TPRs to the localization properties of glucocorticoid (GR) and progesterone (PR) receptors. The GR of L929 cells was found in the cytoplasm in a complex containing PP5 and FKBP51, while the GR of WCL2 cells was nuclear and contained PP5 and FKBP52. Cyp40 did not interact with the GR in either cell line. To test whether FKBP interaction determined localization, we overexpressed Flag-tagged FKBP51 in WCL2 cells and Flag-FKBP52 in L929 cells. In WCL2 cells, the GR exhibited a shift to greater cytoplasmic localization that correlated with recruitment of Flag-FKBP51. In contrast, Flag-FKBP52 was not recruited to the GR of L929 cells, and no change in localization was observed, suggesting that both cell-type-specific mechanisms and TPR abundance contribute to the SR-TPR interaction. As a further test, GR-GFP and PR-GFP constructs were expressed in COS cells. The GR-GFP construct localized to the cytoplasm, while the PR-GFP construct was predominantly nuclear. Similar to L929 cells, the GR in COS interacted with PP5 and FKBP51, while PR interacted with FKBP52. Analysis of GR-PR chimeric constructs revealed that the ligand-binding domain of each receptor determines both TPR specificity and localization. Lastly, we analyzed GR and PR localization in cells completely lacking TPR. PR in FKBP52 KO cells showed a complete shift to the cytoplasm, while GR in FKBP51 KO and PP5 KO cells showed a moderate shift to the nucleus, indicating that both TPRs contribute to GR localization. Our results demonstrate that SRs have distinct preferences for TPR proteins, a property that resides in the LBD and which can now explain long-standing differences in receptor subcellular localization.
热休克蛋白90(Hsp90)共伴侣蛋白FKBP52、FKBP51、Cyp40和PP5存在于类固醇受体(SR)复合物中,但其受体特异性偏好和作用仍未明确。我们通过研究这四种热休克蛋白90共伴侣蛋白对糖皮质激素(GR)和孕激素(PR)受体定位特性的贡献,对这一问题采取了系统的研究方法。发现L929细胞的GR存在于细胞质中,与PP5和FKBP51形成复合物,而WCL2细胞的GR位于细胞核中,包含PP5和FKBP52。在这两种细胞系中,Cyp40均不与GR相互作用。为了测试FKBP相互作用是否决定定位,我们在WCL2细胞中过表达Flag标记的FKBP51,在L929细胞中过表达Flag-FKBP52。在WCL2细胞中,GR向细胞质的定位增加,这与Flag-FKBP51的募集相关。相反,Flag-FKBP52未募集到L929细胞的GR上,且未观察到定位变化,这表明细胞类型特异性机制和热休克蛋白90共伴侣蛋白丰度均有助于SR-热休克蛋白90共伴侣蛋白相互作用。作为进一步的测试,在COS细胞中表达了GR-GFP和PR-GFP构建体。GR-GFP构建体定位于细胞质,而PR-GFP构建体主要位于细胞核。与L929细胞类似,COS细胞中的GR与PP5和FKBP51相互作用,而PR与FKBP52相互作用。对GR-PR嵌合构建体的分析表明,每个受体的配体结合结构域决定了热休克蛋白90共伴侣蛋白特异性和定位。最后,我们分析了完全缺乏热休克蛋白90共伴侣蛋白的细胞中GR和PR的定位。FKBP52基因敲除细胞中的PR完全转移至细胞质,而FKBP51基因敲除和PP5基因敲除细胞中的GR适度转移至细胞核,这表明两种热休克蛋白90共伴侣蛋白均有助于GR定位。我们的结果表明,SR对热休克蛋白90共伴侣蛋白具有不同的偏好,这一特性存在于配体结合结构域中,现在可以解释受体亚细胞定位的长期差异。
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