Surprising Features of Nuclear Receptor Interaction Networks Revealed by Live Cell Single Molecule Imaging.

Liza Dahal, Thomas Gw Graham, Gina M Dailey, Alec Heckert, Robert Tjian, Xavier Darzacq
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Abstract

Type 2 Nuclear Receptors (T2NRs) require heterodimerization with a common partner, the Retinoid X Receptor (RXR), to bind cognate DNA recognition sites in chromatin. Based on previous biochemical and over-expression studies, binding of T2NRs to chromatin is proposed to be regulated by competition for a limiting pool of the core RXR subunit. However, this mechanism has not yet been tested for endogenous proteins in live cells. Using single molecule tracking (SMT) and proximity-assisted photoactivation (PAPA), we monitored interactions between endogenously tagged retinoid X receptor (RXR) and retinoic acid receptor (RAR) in live cells. Unexpectedly, we find that higher expression of RAR, but not RXR increases heterodimerization and chromatin binding in U2OS cells. This surprising finding indicates the limiting factor is not RXR but likely its cadre of obligate dimer binding partners. SMT and PAPA thus provide a direct way to probe which components are functionally limiting within a complex TF interaction network providing new insights into mechanisms of gene regulation in vivo with implications for drug development targeting nuclear receptors.

Abstract Image

Abstract Image

Abstract Image

活细胞单分子成像揭示的核受体相互作用网络的惊人特征。
2型核受体(T2NRs)需要与一个共同的伴侣——视黄醇X受体(RXR)进行异二聚,以结合染色质中的同源DNA识别位点。基于先前的生物化学和过表达研究,T2NRs与染色质的结合被认为是通过竞争核心RXR亚基的限制池来调节的。然而,这一机制尚未在活细胞中对内源性蛋白质进行测试。使用单分子追踪(SMT)和邻近辅助光活化(PAPA),我们监测了活细胞中内源性标记的维甲酸X受体(RXR)和维甲酸受体(RAR)之间的相互作用。出乎意料的是,我们发现RAR(而不是RXR)的高表达增加了U2OS细胞中的异二聚化和染色质结合。这一令人惊讶的发现表明,限制因子不是RXR,而是其专性二聚体结合伴侣的骨干。因此,SMT和PAPA提供了一种直接的方法来探测在复杂的TF相互作用网络中哪些成分是功能限制性的,为体内基因调控机制提供了新的见解,对靶向核受体的药物开发具有启示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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