Signaling by the integrated stress response kinase PKR is fine-tuned by dynamic clustering

F. Zappa, N. Muniozguren, J. C. Ponce-Rojas, D. Acosta-Alvear
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引用次数: 14

Abstract

The double-stranded RNA sensor kinase PKR is one of four integrated stress response (ISR) sensor kinases that phosphorylate the alpha subunit of the eukaryotic initiation factor 2 (eIF2α) in response to stress. The current model of PKR activation considers the formation of back-to-back PKR dimers as a prerequisite for signal propagation. Here we show that PKR signaling involves the assembly of dynamic PKR clusters. PKR clustering is driven by ligand binding to PKR’s sensor domain and by front-to-front interfaces between PKR’s kinase domains. PKR clusters are discrete, heterogeneous, autonomous coalescences that share some protein components with processing bodies. Strikingly, eIF2α is not recruited to PKR clusters, and PKR cluster disruption enhances eIF2α phosphorylation. Together, these results support a model in which PKR clustering buffers downstream signaling, which may enable proofreading the ISR.
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综合应激反应激酶PKR的信号通过动态聚类进行微调
双链RNA传感器激酶PKR是四种综合应激反应(ISR)传感器激酶之一,在应激反应中磷酸化真核起始因子2 (eIF2α)的α亚基。目前的PKR激活模型认为背靠背PKR二聚体的形成是信号传播的先决条件。在这里,我们表明PKR信号涉及动态PKR簇的组装。PKR聚类是由配体结合到PKR的传感器结构域和PKR激酶结构域之间的前端接口驱动的。PKR集群是离散的、异质的、自主的聚结,与加工体共享一些蛋白质成分。引人注目的是,eIF2α不被募集到PKR簇中,PKR簇的破坏增强了eIF2α的磷酸化。总之,这些结果支持PKR集群缓冲下游信号的模型,这可能使ISR的校对成为可能。
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