N 端截断的 Aβ 肽的铜结合特性：寻找生物学功能。

Cu Binding Properties of N-Truncated Aβ Peptides: In Search of Biological Function.

机构信息

Institute of Biochemistry and Biophysics, Polish Academy of Sciences , Pawińskiego 5a , 02-106 Warsaw , Poland.

出版信息

Inorg Chem. 2019 Oct 21;58(20):13561-13577. doi: 10.1021/acs.inorgchem.9b01399. Epub 2019 Jul 15.

DOI:10.1021/acs.inorgchem.9b01399

Abstract

As life expectancy increases, the number of people affected by progressive and irreversible dementia, Alzheimer's Disease (AD), is predicted to grow. No drug designs seem to be working in humans, apparently because the origins of AD have not been identified. Invoking amyloid cascade, metal ions, and ROS production hypothesis of AD, herein we share our point of view on Cu(II) binding properties of Aβ, the most prevalent N-truncated Aβ peptide, currently known as the main constituent of amyloid plaques. The capability of Aβ to rapidly take over copper from previously tested Aβ peptides and form highly stable complexes, redox unreactive and resistant to copper exchange reactions, prompted us to propose physiological roles for these peptides. We discuss the new findings on the reactivity of Cu(II)Aβ with coexisting biomolecules in the context of synaptic cleft; we suggest that the role of Aβ peptides is to quench Cu(II) toxicity in the brain and maintain neurotransmission.

摘要

随着预期寿命的延长，受进行性和不可逆转痴呆、阿尔茨海默病 (AD) 影响的人数预计将增加。似乎没有药物设计在人类中有效，显然是因为 AD 的起源尚未确定。援引 AD 的淀粉样蛋白级联、金属离子和 ROS 产生假说，本文我们分享了我们对 Aβ 的 Cu(II)结合特性的观点，Aβ 是最常见的 N 截断 Aβ 肽，目前被认为是淀粉样斑块的主要成分。Aβ 能够从之前测试过的 Aβ 肽中迅速夺取铜并形成高度稳定的配合物，具有不可还原和抵抗铜交换反应的性质，这促使我们提出这些肽的生理作用。我们讨论了 Cu(II)Aβ 与突触间隙中共存生物分子的反应性的新发现；我们认为 Aβ 肽的作用是在大脑中消除 Cu(II)毒性并维持神经递质传递。

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N 端截断的 Aβ 肽的铜结合特性：寻找生物学功能。

Cu Binding Properties of N-Truncated Aβ Peptides: In Search of Biological Function.

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