Post-translational modification sites are present in hydrophilic cavities of alpha-synuclein, tau, FUS, and TDP-43 fibrils: A molecular dynamics study.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-07-01 Epub Date: 2024-03-08 DOI:10.1002/prot.26679
Noah Nathan Kochen, Darren Seaney, Vivek Vasandani, Marguerite Murray, Anthony R Braun, Jonathan N Sachs
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Abstract

Hydration plays a crucial role in the refolding of intrinsically disordered proteins into amyloid fibrils; however, the specific interactions between water and protein that may contribute to this process are still unknown. In our previous studies of alpha-synuclein (aSyn), we have shown that waters confined in fibril cavities are stabilizing features of this pathological fold; and that amino acids that hydrogen bond with these confined waters modulate primary and seeded aggregation. Here, we extend our aSyn molecular dynamics (MD) simulations with three new polymorphs and correlate MD trajectory information with known post-translational modifications (PTMs) and experimental data. We show that cavity residues are more evolutionarily conserved than non-cavity residues and are enriched with PTM sites. As expected, the confinement within hydrophilic cavities results in more stably hydrated amino acids. Interestingly, cavity PTM sites display the longest protein-water hydrogen bond lifetimes, three-fold greater than non-PTM cavity sites. Utilizing the deep mutational screen dataset by Newberry et al. and the Thioflavin T aggregation review by Pancoe et al. parsed using a fibril cavity/non-cavity definition, we show that hydrophobic changes to amino acids in cavities have a larger effect on fitness and aggregation rate than residues outside cavities, supporting our hypothesis that these sites are involved in the inhibition of aSyn toxic fibrillization. Finally, we expand our study to include analysis of fibril structures of tau, FUS, TDP-43, prion, and hnRNPA1; all of which contained hydrated cavities, with tau, FUS, and TDP-43 recapitulating our PTM results in aSyn fibril cavities.

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翻译后修饰位点存在于 alpha-synuclein、tau、FUS 和 TDP-43 纤维的亲水空腔中:分子动力学研究。
水合作用在本征无序蛋白重新折叠成淀粉样纤维的过程中起着至关重要的作用;然而,水和蛋白质之间的特定相互作用可能有助于这一过程,但目前仍不清楚。在我们以前对α-突触核蛋白(aSyn)的研究中,我们已经证明,局限在纤维空腔中的水是这种病理折叠的稳定特征;与这些局限的水氢键结合的氨基酸会调节原生和种子聚集。在这里,我们用三种新的多态性扩展了 aSyn 分子动力学(MD)模拟,并将 MD 轨迹信息与已知的翻译后修饰(PTMs)和实验数据相关联。我们发现,空腔残基比非空腔残基在进化过程中更加保守,并且富含 PTM 位点。正如所预期的那样,亲水空腔内的限制会导致氨基酸更稳定地水合。有趣的是,空腔 PTM 位点显示出最长的蛋白质-水氢键寿命,是非 PTM 空腔位点的三倍。利用 Newberry 等人的深度突变筛选数据集和 Pancoe 等人使用纤维空腔/非空腔定义解析的硫黄素 T 聚集综述,我们表明,与空腔外的残基相比,空腔内氨基酸的疏水变化对适应性和聚集率的影响更大,这支持了我们的假设,即这些位点参与了抑制 aSyn 毒性纤维化的过程。最后,我们扩大了研究范围,分析了 tau、FUS、TDP-43、朊病毒和 hnRNPA1 的纤维结构;所有这些都含有水合空腔,其中 tau、FUS 和 TDP-43 再现了我们在 aSyn 纤维空腔中的 PTM 结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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7.20
自引率
4.30%
发文量
567
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