N-Terminal Acetylation Preserves α-Synuclein from Oligomerization by Blocking Intermolecular Hydrogen Bonds

Bing Bu; Xin Tong; Dechang Li; Yachong Hu; Wangxiao He; Chunyu Zhao; Rui Hu; Xiaoqing Li; Yongping Shao; Cong Liu; Qing Zhao; Baohua Ji; Jiajie Diao

doi:10.1021/acschemneuro.7b00250

N-Terminal Acetylation Preserves α-Synuclein from Oligomerization by Blocking Intermolecular Hydrogen Bonds

Bing Bu
, Xin Tong
, Dechang Li
, Yachong Hu
, Wangxiao He
, Chunyu Zhao
, Rui Hu
, Xiaoqing Li
, Yongping Shao
, Cong Liu
, Qing Zhao
, Baohua Ji
, Jiajie Diao

科研成果: 期刊稿件 › 文章 › 同行评审

64 引用（Scopus）

摘要

The abnormal aggregation of α-synuclein (α-Syn) is closely associated with Parkinson's disease. Different post-translational modifications of α-Syn have been identified and contribute distinctly in α-Syn aggregation and cytotoxicity. Recently, α-Syn was reported to be N-terminally acetylated in cells, yet the functional implication of this modification, especially in α-Syn oligomerization, remains unclear. By using a solid-state nanopore system, we found that N-terminal acetylation can significantly decrease α-Syn oligomerization. Replica-exchange molecular dynamics simulations further revealed that addition of an acetyl group at the N-terminus disrupts intermolecular hydrogen bonds, which slows down the initial α-Syn oligomerization. Our finding highlights the essential role of N-terminal acetylation of α-Syn in preserving its native conformation against pathological aggregation.

源语言	英语
页（从-至）	2145-2151
页数	7
期刊	ACS Chemical Neuroscience
卷	8
期	10
DOI	https://doi.org/10.1021/acschemneuro.7b00250
出版状态	已出版 - 18 10月 2017

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title = "N-Terminal Acetylation Preserves α-Synuclein from Oligomerization by Blocking Intermolecular Hydrogen Bonds",

abstract = "The abnormal aggregation of α-synuclein (α-Syn) is closely associated with Parkinson's disease. Different post-translational modifications of α-Syn have been identified and contribute distinctly in α-Syn aggregation and cytotoxicity. Recently, α-Syn was reported to be N-terminally acetylated in cells, yet the functional implication of this modification, especially in α-Syn oligomerization, remains unclear. By using a solid-state nanopore system, we found that N-terminal acetylation can significantly decrease α-Syn oligomerization. Replica-exchange molecular dynamics simulations further revealed that addition of an acetyl group at the N-terminus disrupts intermolecular hydrogen bonds, which slows down the initial α-Syn oligomerization. Our finding highlights the essential role of N-terminal acetylation of α-Syn in preserving its native conformation against pathological aggregation.",

keywords = "N-terminal acetylation, Parkinson's disease oligomerization, α-Synuclein",

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doi = "10.1021/acschemneuro.7b00250",

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T1 - N-Terminal Acetylation Preserves α-Synuclein from Oligomerization by Blocking Intermolecular Hydrogen Bonds

AU - Bu, Bing

AU - Tong, Xin

AU - Li, Dechang

AU - Hu, Yachong

AU - He, Wangxiao

AU - Zhao, Chunyu

AU - Hu, Rui

AU - Li, Xiaoqing

AU - Shao, Yongping

AU - Liu, Cong

AU - Zhao, Qing

AU - Ji, Baohua

AU - Diao, Jiajie

PY - 2017/10/18

Y1 - 2017/10/18

N2 - The abnormal aggregation of α-synuclein (α-Syn) is closely associated with Parkinson's disease. Different post-translational modifications of α-Syn have been identified and contribute distinctly in α-Syn aggregation and cytotoxicity. Recently, α-Syn was reported to be N-terminally acetylated in cells, yet the functional implication of this modification, especially in α-Syn oligomerization, remains unclear. By using a solid-state nanopore system, we found that N-terminal acetylation can significantly decrease α-Syn oligomerization. Replica-exchange molecular dynamics simulations further revealed that addition of an acetyl group at the N-terminus disrupts intermolecular hydrogen bonds, which slows down the initial α-Syn oligomerization. Our finding highlights the essential role of N-terminal acetylation of α-Syn in preserving its native conformation against pathological aggregation.

AB - The abnormal aggregation of α-synuclein (α-Syn) is closely associated with Parkinson's disease. Different post-translational modifications of α-Syn have been identified and contribute distinctly in α-Syn aggregation and cytotoxicity. Recently, α-Syn was reported to be N-terminally acetylated in cells, yet the functional implication of this modification, especially in α-Syn oligomerization, remains unclear. By using a solid-state nanopore system, we found that N-terminal acetylation can significantly decrease α-Syn oligomerization. Replica-exchange molecular dynamics simulations further revealed that addition of an acetyl group at the N-terminus disrupts intermolecular hydrogen bonds, which slows down the initial α-Syn oligomerization. Our finding highlights the essential role of N-terminal acetylation of α-Syn in preserving its native conformation against pathological aggregation.

KW - N-terminal acetylation

KW - Parkinson's disease oligomerization

KW - α-Synuclein

UR - https://www.scopus.com/pages/publications/85031663582

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DO - 10.1021/acschemneuro.7b00250

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AN - SCOPUS:85031663582

SN - 1948-7193

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JO - ACS Chemical Neuroscience

JF - ACS Chemical Neuroscience

IS - 10

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N-Terminal Acetylation Preserves α-Synuclein from Oligomerization by Blocking Intermolecular Hydrogen Bonds

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