Cryo–electron microscopy structure and analysis of the P-Rex1–Gβγ signaling scaffold

Jennifer N. Cash; Sarah Urata; Sheng Li; Sandeep K. Ravala; Larisa V. Avramova; Michael D. Shost; J. Silvio Gutkind; John J. G. Tesmer; Michael A. Cianfrocco

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Cryo–electron microscopy structure and analysis of the P-Rex1–Gβγ signaling scaffold

机译：P-Rex1-Gβγ信号转导支架的低温电子显微镜结构和分析

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PIPsub3/sub-dependent Rac exchanger 1 (P-Rex1) is activated downstream of G protein–coupled receptors to promote neutrophil migration and metastasis. The structure of more than half of the enzyme and its regulatory G protein binding site are unknown. Our 3.2 ? cryo-EM structure of the P-Rex1–Gβγ complex reveals that the carboxyl-terminal half of P-Rex1 adopts a complex fold most similar to those of Legionella phosphoinositide phosphatases. Although catalytically inert, the domain coalesces with a DEP domain and two PDZ domains to form an extensive docking site for Gβγ. Hydrogen-deuterium exchange mass spectrometry suggests that Gβγ binding induces allosteric changes in P-Rex1, but functional assays indicate that membrane localization is also required for full activation. Thus, a multidomain assembly is key to the regulation of P-Rex1 by Gβγ and the formation of a membrane-localized scaffold optimized for recruitment of other signaling proteins such as PKA and PTEN.

机译：PIP _{3 依赖的Rac交换子1（P-Rex1）在G蛋白偶联受体的下游被激活，以促进中性粒细胞的迁移和转移。一半以上酶的结构及其调节性G蛋白结合位点尚不清楚。我们的3.2吗？ P-Rex1-Gβγ复合物的冷冻EM结构表明，P-Rex1的羧基末端一半具有与军团菌磷酸肌醇磷酸酶最相似的复合物折叠。尽管具有催化惰性，但该结构域与DEP结构域和两个PDZ结构域合并，形成Gβγ的广泛对接位点。氢-氘交换质谱表明，Gβγ结合可诱导P-Rex1的变构变化，但功能分析表明，完全激活还需要进行膜定位。因此，多结构域装配是通过Gβγ调节P-Rex1和形成膜定位支架的关键，该支架针对其他信号蛋白（如PKA和PTEN）的募集而优化。}

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《Science Advances》 |2019年第10期|共11页
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Jennifer N. Cash; Sarah Urata; Sheng Li; Sandeep K. Ravala; Larisa V. Avramova; Michael D. Shost; J. Silvio Gutkind; John J. G. Tesmer; Michael A. Cianfrocco;
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7. Cryo–electron microscopy structure and analysis of the P-Rex1–Gβγ signaling scaffold [O] . Jennifer N. Cash, Sarah Urata, Sheng Li, 2019

机译：低温电子显微镜结构和P-REX1-Gβγ信号架的分析

Cryo–electron microscopy structure and analysis of the P-Rex1–Gβγ signaling scaffold

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