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二级成核序列影响 tau 聚集的动力学和热力学。

Secondary nucleating sequences affect kinetics and thermodynamics of tau aggregation.

机构信息

Department of Chemistry, The University of Texas at Dallas, Richardson, Texas 75080, United States.

出版信息

Biochemistry. 2011 Dec 20;50(50):10876-86. doi: 10.1021/bi2014745. Epub 2011 Nov 29.

DOI:10.1021/bi2014745
PMID:22085312
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3237831/
Abstract

Tau protein was scanned for highly amyloidogenic sequences in amphiphilic motifs (X)(n)Z, Z(X)(n)Z (n ≥ 2), or (XZ)(n) (n ≥ 2), where X is a hydrophobic residue and Z is a charged or polar residue. N-Acetyl peptides homologous to these sequences were used to study aggregation. Transmission electron microscopy (TEM) showed seven peptides, in addition to well-known primary nucleating sequences Ac(275)VQIINK (AcPHF6*) and Ac(306)VQIVYK (AcPHF6), formed fibers, tubes, ribbons, or rolled sheets. Of the peptides shown by TEM to form amyloid, Ac(10)VME, AcPHF6*, Ac(375)KLTFR, and Ac(393)VYK were found to enhance the fraction of β-structure of AcPHF6 formed at equilibrium, and Ac(375)KLTFR was found to inhibit AcPHF6 and AcPHF6* aggregation kinetics in a dose-dependent manner, consistent with its participation in a hybrid steric zipper model. Single site mutants were generated which transformed predicted amyloidogenic sequences in tau into non-amyloidogenic ones. A M11K mutant had fewer filaments and showed a decrease in aggregation kinetics and an increased lag time compared to wild-type tau, while a F378K mutant showed significantly more filaments. Our results infer that sequences throughout tau, in addition to PHF6 and PHF6*, can seed amyloid formation or affect aggregation kinetics or thermodynamics.

摘要

tau 蛋白在亲脂性基序 (X)(n)Z、Z(X)(n)Z(n≥2)或 (XZ)(n)(n≥2)中被扫描出具有高度淀粉样蛋白形成序列,其中 X 是疏水性残基,Z 是带电荷或极性残基。与这些序列同源的 N-乙酰肽被用于研究聚集。透射电子显微镜(TEM)显示,除了众所周知的初级成核序列 Ac(275)VQIINK(AcPHF6*)和 Ac(306)VQIVYK(AcPHF6)外,还有七种肽形成纤维、管、带或卷片。通过 TEM 显示形成淀粉样的肽中,Ac(10)VME、AcPHF6*、Ac(375)KLTFR 和 Ac(393)VYK 被发现增加了 AcPHF6 在平衡时形成的 β-结构的比例,并且 Ac(375)KLTFR 被发现以剂量依赖的方式抑制 AcPHF6 和 AcPHF6聚集动力学,与它参与混合空间阻碍拉链模型一致。生成了单点突变体,将 tau 中的预测淀粉样蛋白形成序列转化为非淀粉样蛋白形成序列。与野生型 tau 相比,M11K 突变体的纤维较少,聚集动力学下降,滞后时间增加,而 F378K 突变体的纤维明显增多。我们的结果推断,tau 中的序列,除了 PHF6 和 PHF6之外,还可以引发淀粉样形成或影响聚集动力学或热力学。

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