LRAP35a 和 CLASP2 的 GSK3β 和 CK1δ 周期性磷酸化调节细胞迁移中 EB1 依赖的微管动力学。

Cyclical phosphorylation of LRAP35a and CLASP2 by GSK3β and CK1δ regulates EB1-dependent MT dynamics in cell migration.

机构信息

Institute of Molecular and Cell Biology, A(∗)STAR, 61 Biopolis Drive, Proteos, Singapore 138673, Singapore; Genome Institute of Singapore, A(∗)STAR, 60 Biopolis Street, #02-01 Genome, Singapore 138672, Singapore; Department of Anatomy, Yong Loo Lin School of Medicine, MD10, 4 Medical Drive, Singapore 117594, Singapore.

Institute of Molecular and Cell Biology, A(∗)STAR, 61 Biopolis Drive, Proteos, Singapore 138673, Singapore; Department of Anatomy, Yong Loo Lin School of Medicine, MD10, 4 Medical Drive, Singapore 117594, Singapore.

出版信息

Cell Rep. 2021 Sep 14;36(11):109687. doi: 10.1016/j.celrep.2021.109687.

DOI:10.1016/j.celrep.2021.109687

PMID:34525355

Abstract

Mammalian cell cytoskeletal reorganization for efficient directional movement requires tight coordination of actomyosin and microtubule networks. In this study, we show that LRAP35a potentiates microtubule stabilization by promoting CLASP2/EB1 interaction besides its complex formation with MRCK/MYO18A for retrograde actin flow. The alternate regulation of these two networks by LRAP35a is tightly regulated by a series of phosphorylation events that dictated its specificity. Sequential phosphorylation of LRAP35a by Protein Kinase A (PKA) and Glycogen Synthase Kinase-3β (GSK3β) initiates the association of LRAP35a with CLASP2, while subsequent binding and further phosphorylation by Casein Kinase 1δ (CK1δ) induce their dissociation, which facilitates LRAP35a/MRCK association in driving lamellar actomyosin flow. Importantly, microtubule dynamics is directly moderated by CK1δ activity on CLASP2 to regulate GSK3β phosphorylation of the SxIP motifs that blocks EB1 binding, an event countered by LRAP35a interaction and its competition for CK1δ activity. Overall this study reveals an essential role for LRAP35a in coordinating lamellar contractility and microtubule polarization in cell migration.

摘要

哺乳动物细胞细胞骨架的重组对于有效的定向运动需要肌动球蛋白和微管网络的紧密协调。在这项研究中，我们表明 LRAP35a 通过促进 CLASP2/EB1 相互作用来增强微管的稳定性，除了其与 MRCK/MYO18A 形成复合物以促进逆行肌动蛋白流动。LRAP35a 对这两个网络的交替调节受到一系列磷酸化事件的严格调控，这些事件决定了其特异性。蛋白激酶 A（PKA）和糖原合酶激酶-3β（GSK3β）对 LRAP35a 的顺序磷酸化启动了 LRAP35a 与 CLASP2 的结合，而随后由酪蛋白激酶 1δ（CK1δ）结合和进一步磷酸化诱导它们的解离，这有利于 LRAP35a/MRCK 结合以驱动片状肌动球蛋白流动。重要的是，微管动力学直接受到 CK1δ 对 CLASP2 的活性调节，以调节 GSK3β 对 SxIP 基序的磷酸化，该磷酸化阻止 EB1 结合，而 LRAP35a 的相互作用及其对 CK1δ 活性的竞争则抵消了该作用。总的来说，这项研究揭示了 LRAP35a 在协调细胞迁移中的片状收缩性和微管极化中的重要作用。

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LRAP35a 和 CLASP2 的 GSK3β 和 CK1δ 周期性磷酸化调节细胞迁移中 EB1 依赖的微管动力学。

Cyclical phosphorylation of LRAP35a and CLASP2 by GSK3β and CK1δ regulates EB1-dependent MT dynamics in cell migration.

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