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β淀粉样蛋白的丝氨酸磷酸化模拟物形成独特的、非交叉播种的纤维形态。

Serine phosphorylation mimics of Aβ form distinct, non-cross-seeding fibril morphs.

作者信息

Sanagavarapu Kalyani, Meisl Georg, Lattanzi Veronica, Bernfur Katja, Frohm Birgitta, Olsson Ulf, Knowles Tuomas P J, Malmendal Anders, Linse Sara

机构信息

Biochemistry and Structural Biology, Department of Chemistry, Lund University Lund Sweden

Yusuf Hamied Chemistry Department, University of Cambridge Lensfield Road Cambridge UK.

出版信息

Chem Sci. 2024 Oct 11;15(45):19142-59. doi: 10.1039/d3sc06343g.

DOI:10.1039/d3sc06343g
PMID:39494375
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11529392/
Abstract

The self-assembly of amyloid-β peptide (Aβ) into fibrils and oligomers is linked to Alzheimer's disease (AD). Fibrillar aggregates in AD patient's brains contain several post-translational modifications, including phosphorylation at positions 8 and 26. These play a key role in modifying the aggregation propensity of Aβ, yet how they affect the mechanism of aggregation is only poorly understood. Here we elucidate the aggregation mechanism of Aβ42 peptides with phosphomimic mutations at these positions, with glutamine mimicking the size, and glutamate mimicking both the size and charge effect. We find that all variants are less aggregation-prone than wild-type Aβ42 with the glutamate mutants showing the largest reduction. Secondary nucleation is the dominant nucleation route for all variants, as confirmed using seeding experiments; however, its rate is reduced by about an order of magnitude or more for all variants relative to wild-type. S26Q and S26E fibrils fail to catalyse nucleation of wild-type monomers and , while the S8 variants co-aggregate more readily with wild-type. Ultrastructural analyses by cryo-electron microscopy and small angle X-ray scattering reveal an altered structure with longer node-to-node distance and smaller cross-section dimensions of S26Q fibrils. These results imply that structural compatibility between fibrils and monomer is a key determinant in secondary nucleation, and that small modifications can alter the preferred fibril structure, and thus its potential to induce aggregation of other variants. Overall, our results indicate that phosphorylation could play a key role in controlling aggregation propensity and may lead to the formation of distinct, non-cross-seeding fibril populations.

摘要

淀粉样β肽(Aβ)自组装成纤维和寡聚体与阿尔茨海默病(AD)相关。AD患者大脑中的纤维状聚集体包含几种翻译后修饰,包括第8位和第26位的磷酸化。这些修饰在改变Aβ的聚集倾向方面起关键作用,但它们如何影响聚集机制却知之甚少。在这里,我们阐明了在这些位置具有磷酸模拟突变的Aβ42肽的聚集机制机制,用谷氨酰胺模拟大小,用谷氨酸模拟大小和电荷效应。我们发现所有变体的聚集倾向均低于野生型Aβ42,其中谷氨酸突变体的降低幅度最大。如通过接种实验所证实的,二次成核是所有变体的主要成核途径;然而,相对于野生型,所有变体的二次成核速率降低了大约一个数量级或更多。S26Q和S26E纤维不能催化野生型单体的成核,而S8变体与野生型更容易共聚集。通过冷冻电子显微镜和小角X射线散射进行的超微结构分析揭示了S26Q纤维的结构发生了改变,其节点间距离更长,横截面尺寸更小。这些结果表明,纤维和单体之间的结构兼容性是二次成核的关键决定因素,并且小的修饰可以改变首选的纤维结构,从而改变其诱导其他变体聚集的潜力。总体而言,我们的结果表明磷酸化可能在控制聚集倾向中起关键作用,并可能导致形成不同的、非交叉接种的纤维群体。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2c86/11578269/4591e36cc4b6/d3sc06343g-f11.jpg
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