Phase separation of microtubule-binding proteins - implications for neuronal function and disease.

IF 3.6 3区生物学 Q3 CELL BIOLOGY Journal of cell science Pub Date : 2024-12-15 Epub Date: 2024-12-13 DOI:10.1242/jcs.263470

Daisy Duan, Anthony J Koleske

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Abstract

Protein liquid-liquid phase separation (LLPS) is driven by intrinsically disordered regions and multivalent binding domains, both of which are common features of diverse microtubule (MT) regulators. Many in vitro studies have dissected the mechanisms by which MT-binding proteins (MBPs) regulate MT nucleation, stabilization and dynamics, and investigated whether LLPS plays a role in these processes. However, more recent in vivo studies have focused on how MBP LLPS affects biological functions throughout neuronal development. Dysregulation of MBP LLPS can lead to formation of aggregates - an underlying feature in many neurodegenerative diseases - such as the tau neurofibrillary tangles present in Alzheimer's disease. In this Review, we highlight progress towards understanding the regulation of MT dynamics through the lens of phase separation of MBPs and associated cytoskeletal regulators, from both in vitro and in vivo studies. We also discuss how LLPS of MBPs regulates neuronal development and maintains homeostasis in mature neurons.

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微管结合蛋白的相分离--对神经元功能和疾病的影响

蛋白质液-液相分离（LLPS）是由内在无序区和多价结合域驱动的，这两者都是不同微管（MT）调节剂的共同特征。许多体外研究已经剖析了MT结合蛋白（MBPs）调控MT成核、稳定和动力学的机制，并研究了LLPS是否在这些过程中发挥作用。然而，最近的体内研究集中在MBP LLPS如何影响整个神经元发育过程中的生物学功能。MBP LLPS的失调可导致聚集体的形成，这是许多神经退行性疾病的潜在特征，例如阿尔茨海默病中出现的tau神经原纤维缠结。在这篇综述中，我们重点介绍了在体外和体内研究中，通过MBPs和相关细胞骨架调节剂的相分离来理解MT动力学调控方面的进展。我们还讨论了MBPs的LLPS如何调节神经元发育和维持成熟神经元的内稳态。

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