Amyloid accelerator polyphosphate fits as the mystery density in α-synuclein fibrils.

IF 9.8 1区 生物学 Q1 Agricultural and Biological Sciences
PLoS Biology Pub Date : 2024-10-31 eCollection Date: 2024-10-01 DOI:10.1371/journal.pbio.3002650
Philipp Huettemann, Pavithra Mahadevan, Justine Lempart, Eric Tse, Budheswar Dehury, Brian F P Edwards, Daniel R Southworth, Bikash R Sahoo, Ursula Jakob
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Abstract

Aberrant aggregation of α-Synuclein is the pathological hallmark of a set of neurodegenerative diseases termed synucleinopathies. Recent advances in cryo-electron microscopy have led to the structural determination of the first synucleinopathy-derived α-Synuclein fibrils, which contain a non-proteinaceous, "mystery density" at the core of the protofilaments, hypothesized to be highly negatively charged. Guided by previous studies that demonstrated that polyphosphate (polyP), a universally conserved polyanion, significantly accelerates α-Synuclein fibril formation, we conducted blind docking and molecular dynamics simulation experiments to model the polyP binding site in α-Synuclein fibrils. Here, we demonstrate that our models uniformly place polyP into the lysine-rich pocket, which coordinates the mystery density in patient-derived fibrils. Subsequent in vitro studies and experiments in cells revealed that substitution of the 2 critical lysine residues K43 and K45 with alanine residues leads to a loss of all previously reported effects of polyP binding on α-Synuclein, including stimulation of fibril formation, change in filament conformation and stability as well as alleviation of cytotoxicity. In summary, our study demonstrates that polyP fits the unknown electron density present in in vivo α-Synuclein fibrils and suggests that polyP exerts its functions by neutralizing charge repulsion between neighboring lysine residues.

淀粉样加速剂多聚磷酸符合α-突触核蛋白纤维的神秘密度。
α-突触核蛋白的异常聚集是一系列被称为突触核蛋白病的神经退行性疾病的病理特征。冷冻电子显微镜技术的最新进展导致首次确定了源于突触核蛋白病的α-突触核蛋白纤维的结构。以前的研究表明,聚磷酸盐(polyP)--一种普遍保守的多阴离子--能显著加速α-突触核蛋白纤维的形成,在这些研究的指导下,我们进行了盲对接和分子动力学模拟实验,为α-突触核蛋白纤维中的polyP结合位点建模。在这里,我们证明了我们的模型能将 polyP 均匀地放入富含赖氨酸的口袋中,从而协调患者来源纤维中的神秘密度。随后的体外研究和细胞实验表明,用丙氨酸残基取代两个关键的赖氨酸残基 K43 和 K45 会导致先前报道的 polyP 结合对 α-Synuclein 的所有影响消失,包括刺激纤维形成、改变丝状构象和稳定性以及减轻细胞毒性。总之,我们的研究表明,polyP 符合体内α-突触核蛋白纤维中存在的未知电子密度,并表明 polyP 通过中和相邻赖氨酸残基之间的电荷排斥而发挥其功能。
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来源期刊
PLoS Biology
PLoS Biology BIOCHEMISTRY & MOLECULAR BIOLOGY-BIOLOGY
CiteScore
15.40
自引率
2.00%
发文量
359
审稿时长
3-8 weeks
期刊介绍: PLOS Biology is the flagship journal of the Public Library of Science (PLOS) and focuses on publishing groundbreaking and relevant research in all areas of biological science. The journal features works at various scales, ranging from molecules to ecosystems, and also encourages interdisciplinary studies. PLOS Biology publishes articles that demonstrate exceptional significance, originality, and relevance, with a high standard of scientific rigor in methodology, reporting, and conclusions. The journal aims to advance science and serve the research community by transforming research communication to align with the research process. It offers evolving article types and policies that empower authors to share the complete story behind their scientific findings with a diverse global audience of researchers, educators, policymakers, patient advocacy groups, and the general public. PLOS Biology, along with other PLOS journals, is widely indexed by major services such as Crossref, Dimensions, DOAJ, Google Scholar, PubMed, PubMed Central, Scopus, and Web of Science. Additionally, PLOS Biology is indexed by various other services including AGRICOLA, Biological Abstracts, BIOSYS Previews, CABI CAB Abstracts, CABI Global Health, CAPES, CAS, CNKI, Embase, Journal Guide, MEDLINE, and Zoological Record, ensuring that the research content is easily accessible and discoverable by a wide range of audiences.
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