APC orchestrates microtubule dynamics by acting as a positive regulator of KIF2A and a negative regulator of CLASPs

Yong Wang , Xinping Liu , Zheng Liu , Shasha Hua , Kai Jiang
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Abstract

Tumor suppressor protein Adenomatous polyposis coli protein (APC) is an EB-binding and microtubule (MT) plus end-tracking protein; however, how exactly APC regulates MT dynamics remains elusive. Here, we show that in LLC-PK1 cells, APC and KIF2A, an MT depolymerase, form a complex clustering at the cell edge and destabilize MTs at the MT plus ends. Further biochemical characterization and mutational analysis reveal key residues for the APC-KIF2A interaction. In addition, APC counteracts the major MT-stabilizer CLASPs at MT plus ends and promotes directional cell migration via modulating cell adhesion force. Reconstitution experiments demonstrate that APC potentiates KIF2A-induced MT catastrophes and antagonizes the stabilizing effect of CLASP2 in vitro. In summary, APC functions as a positive regulator of MT-destabilizer and a negative regulator of MT-stabilizer to orchestrate MT dynamics.

Abstract Image

APC 通过充当 KIF2A 的正调控因子和 CLASPs 的负调控因子来协调微管动力学
肿瘤抑制蛋白腺瘤性息肉病大肠杆菌蛋白(APC)是一种EB结合蛋白和微管(MT)加端追踪蛋白;然而,APC究竟是如何调节MT动态的仍然令人费解。在这里,我们发现在 LLC-PK1 细胞中,APC 和 MT 解聚酶 KIF2A 在细胞边缘形成一个复合体,并在 MT 加端破坏 MT 的稳定性。进一步的生化鉴定和突变分析揭示了 APC-KIF2A 相互作用的关键残基。此外,APC 还能抵消 MT 加端的主要 MT 稳定剂 CLASPs,并通过调节细胞粘附力促进细胞定向迁移。重组实验证明,APC 能增强 KIF2A 诱导的 MT 灾难,并在体外拮抗 CLASP2 的稳定作用。总之,APC 可作为 MT 失稳器的正调控因子和 MT 稳定器的负调控因子协调 MT 动态。
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来源期刊
Cell insight
Cell insight Neuroscience (General), Biochemistry, Genetics and Molecular Biology (General), Cancer Research, Cell Biology
CiteScore
2.70
自引率
0.00%
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0
审稿时长
35 days
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