Alzheimer’s disease-associated U1 snRNP splicing dysfunction causes neuronal hyperexcitability and cognitive impairment

被引:0
|
作者
Ping-Chung Chen
Xian Han
Timothy I. Shaw
Yingxue Fu
Huan Sun
Mingming Niu
Zhen Wang
Yun Jiao
Brett J. W. Teubner
Donnie Eddins
Lauren N. Beloate
Bing Bai
Joseph Mertz
Yuxin Li
Ji-Hoon Cho
Xusheng Wang
Zhiping Wu
Danting Liu
Suresh Poudel
Zuo-Fei Yuan
Ariana Mancieri
Jonathan Low
Hyeong-Min Lee
Mary H. Patton
Laurie R. Earls
Elizabeth Stewart
Peter Vogel
Yawei Hui
Shibiao Wan
David A. Bennett
Geidy E. Serrano
Thomas G. Beach
Michael A. Dyer
Richard J. Smeyne
Tudor Moldoveanu
Taosheng Chen
Gang Wu
Stanislav S. Zakharenko
Gang Yu
Junmin Peng
机构
[1] St. Jude Children’s Research Hospital,Department of Structural Biology
[2] St. Jude Children’s Research Hospital,Department of Developmental Neurobiology
[3] University of Tennessee Health Science Center,Integrated Biomedical Sciences Program
[4] St. Jude Children’s Research Hospital,Center for Proteomics and Metabolomics
[5] St. Jude Children’s Research Hospital,Department of Computational Biology
[6] Moffitt Cancer Center,Department of Biostatistics and Bioinformatics
[7] St. Jude Children’s Research Hospital,Department of Chemical Biology and Therapeutics
[8] St. Jude Children’s Research Hospital,Department of Oncology
[9] St. Jude Children’s Research Hospital,Veterinary Pathology Core
[10] St. Jude Children’s Research Hospital,Center for Applied Bioinformatics
[11] Rush University Medical Center,Department of Neurological Sciences, Rush Alzheimer’s Disease Center
[12] Banner Sun Health Research Institute,Department of Neuroscience
[13] University of Texas Southwestern Medical Center,Department of Biomedical Engineering and Electrical Engineering
[14] Penn State University,Department of Laboratory Medicine, Center for Precision Medicine, Nanjing Drum Tower Hospital
[15] Nanjing University Medical School,Department of Biology
[16] GlaxoSmithKline,Department of Biological Sciences
[17] University of North Dakota,Department of Neuroscience
[18] Loyola University of New Orleans,Department of Biochemistry and Molecular Biology
[19] Thomas Jefferson University,Department of Neuroscience, Peter O’Donnell Jr. Brain Institute
[20] University of Arkansas for Medical Sciences,undefined
[21] University of Texas Southwestern Medical Center,undefined
来源
Nature Aging | 2022年 / 2卷
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摘要
Recent proteome and transcriptome profiling of Alzheimer’s disease (AD) brains reveals RNA splicing dysfunction and U1 small nuclear ribonucleoprotein (snRNP) pathology containing U1-70K and its N-terminal 40-KDa fragment (N40K). Here we present a causative role of U1 snRNP dysfunction to neurodegeneration in primary neurons and transgenic mice (N40K-Tg), in which N40K expression exerts a dominant-negative effect to downregulate full-length U1-70K. N40K-Tg recapitulates N40K insolubility, erroneous splicing events, neuronal degeneration and cognitive impairment. Specifically, N40K-Tg shows the reduction of GABAergic synapse components (for example, the GABA receptor subunit of GABRA2) and concomitant postsynaptic hyperexcitability that is rescued by a GABA receptor agonist. Crossing of N40K-Tg and the 5xFAD amyloidosis model indicates that the RNA splicing defect synergizes with the amyloid cascade to remodel the brain transcriptome and proteome, deregulate synaptic proteins and accelerate cognitive decline. Thus, our results support the contribution of U1 snRNP-mediated splicing dysfunction to AD pathogenesis.
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页码:923 / 940
页数:17
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