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展示在急性脑切片中具有选择性细胞毒性脆弱性的淀粉样寡聚体的原子视图。

Atomic view of an amyloid dodecamer exhibiting selective cellular toxic vulnerability in acute brain slices.

机构信息

Department of Chemistry, University of Tennessee, Knoxville, Tennessee, USA.

HHMI, University of California, Los Angeles, California, USA.

出版信息

Protein Sci. 2022 Mar;31(3):716-727. doi: 10.1002/pro.4268. Epub 2022 Jan 5.

DOI:10.1002/pro.4268
PMID:34954854
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8862425/
Abstract

Atomic structures of amyloid oligomers that capture the neurodegenerative disease pathology are essential to understand disease-state causes and finding cures. Here we investigate the G6W mutation of the cytotoxic, hexameric amyloid model KV11. The mutation results into an asymmetric dodecamer composed of a pair of 30° twisted antiparallel β-sheets. The complete break between adjacent β-strands is unprecedented among amyloid fibril crystal structures and supports that our structure is an oligomer. The poor shape complementarity between mated sheets reveals an interior channel for binding lipids, suggesting that the toxicity may be due to a perturbation of lipid transport rather than a direct disruption of membrane integrity. Viability assays on mouse suprachiasmatic nucleus, anterior hypothalamus, and cerebral cortex demonstrated selective regional vulnerability consistent with Alzheimer's disease. Neuropeptides released from the brain slices may provide clues to how G6W initiates cellular injury.

摘要

为了理解疾病状态的原因并寻找治疗方法,捕获神经退行性疾病病理学的淀粉样寡聚体的原子结构至关重要。在这里,我们研究了细胞毒性六聚体淀粉样模型 KV11 的 G6W 突变。该突变导致由一对 30°扭曲的反平行 β-片层组成的不对称十二聚体。完整的相邻β-链之间的断裂在淀粉样原纤维晶体结构中是前所未有的,这支持了我们的结构是一个寡聚体。配对片层之间的形状互补性差揭示了一个用于结合脂质的内部通道,表明毒性可能是由于脂质运输的干扰,而不是直接破坏膜的完整性。对小鼠视交叉上核、下丘脑前部和大脑皮层的存活能力测定表明,与阿尔茨海默病一致的选择性区域易感性。从脑片中释放的神经肽可能为 G6W 如何引发细胞损伤提供线索。

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