New Publications

Atomistic Insights into the Inhibitory Mechanism of Tyrosine Phosphorylation against the Aggregation of Human Tau Fragment PHF6

Date: 2023-03-20       Visitcount: 34

Yu Zou, Lulu Guan, Jingwang Tan, Bote Qi, Ying Wang, Qingwen Zhang and Yunxiang Sun

The Journal of Physical Chemistry B

2023 Volume 127

https://doi.org/10.1021/acs.jpcb.2c07568


Abstract:

Abnormal aggregation of the microtubule-associated protein tau into intracellular fibrillary inclusions is characterized as the hallmark of tauopathies, including Alzheimer’s disease and chronic traumatic encephalopathy. The hexapeptide 306VQIVYK311 (PHF6) of R3 plays an important role in the aggregation of tau. Recent experimental studies reported that phosphorylation of residue tyrosine 310 (Y310) could decrease the propensity of PHF6 to form fibrils and inhibit tau aggregation. However, the underlying inhibitory mechanism is not well understood. In this work, we systematically investigated the influences of phosphorylation on the conformational ensembles and oligomerization dynamics of PHF6 by performing extensive all-atom molecular dynamics (MD) simulations. Our replica exchange MD simulations demonstrate that Y310 phosphorylation could effectively suppress the formation of β-structure and shift PHF6 oligomers toward coil-rich aggregates. The interaction analyses show that hydrogen bonding and hydrophobic interactions among PHF6 peptides, as well as Y310Y310 ππ stacking and I308Y310 CHπ interactions, are weakened by phosphorylation. Additional microsecond MD simulations show that Y310 phosphorylation could inhibit the oligomerization of PHF6 by preventing the formation of large β-sheet oligomers and multi-layer β-sheet aggregates. This study provides mechanistic insights into the phosphorylation-inhibited tau aggregation, which may be helpful for the in-depth understanding of the pathogenesis of tauopathies.




  • College of Education, Zhejiang University
    866 Yuhangtang Road, Hangzhou
  • Tel  : +86 571 88273934
  • Fax : +86 571 88273187
  • Copyright © 2018 College of Education, Zhejiang University. All Rights Reserved.
    您是第31810位訪問者 

    百事3平台专业提供:百事3平台百事3百事3娱乐等服务,提供最新官网平台、地址、注册、登陆、登录、入口、全站、网站、网页、网址、娱乐、手机版、app、下载、欧洲杯、欧冠、nba、世界杯、英超等,界面美观优质完美,安全稳定,服务一流,百事3平台欢迎您。 百事3平台官網xml地圖