Differential expression of microRNAs in Alzheimer's disease brain, blood, and cerebrospinal fluid

被引:118
作者
Takousis, Petros [1 ]
Sadlon, Angelique [1 ]
Schulz, Jessica [2 ,3 ]
Wohlers, Inken [4 ,5 ]
Dobricic, Valerija [4 ,5 ]
Middleton, Lefkos [1 ]
Lill, Christina M. [2 ,3 ]
Perneczky, Robert [1 ,6 ,7 ,8 ]
Bertram, Lars [1 ,4 ,5 ,9 ]
机构
[1] Imperial Coll London, Sch Publ Hlth, Ageing Epidemiol AGE Res Unit, London, England
[2] Univ Lubeck, Inst Neurogenet, Lubeck Interdisciplinary Platform Genome Analyt L, Genet & Mol Epidemiol Grp, Lubeck, Germany
[3] Univ Lubeck, Inst Cardiogenet, Lubeck Interdisciplinary Platform Genome Analyt L, Genet & Mol Epidemiol Grp, Lubeck, Germany
[4] Univ Lubeck, Inst Neurogenet, Lubeck Interdisciplinary Platform Genome Analyt L, Lubeck, Germany
[5] Univ Lubeck, Inst Cardiogenet, Lubeck Interdisciplinary Platform Genome Analyt L, Lubeck, Germany
[6] Ludwig Maximilians Univ Munchen, Univ Hosp, Dept Psychiat & Psychotherapy, Munich, Germany
[7] German Ctr Neurodegenerat Dis DZNE Munich, Munich, Germany
[8] Munich Cluster Syst Neurol SyNergy, Munich, Germany
[9] Univ Oslo, Dept Psychol, Oslo, Norway
来源
ALZHEIMERS & DEMENTIA | 2019年 / 15卷 / 11期
关键词
Alzheimer's disease; Dementia; Genetics; Epigenetics; Biomarker; Meta-analysis; Systematic review; Diagnosis; Prognosis; Pathophysiology; AMYLOID PRECURSOR PROTEIN; POTENTIAL BIOMARKERS; BETA-SECRETASE; METAANALYSIS; ASSOCIATION;
D O I
10.1016/j.jalz.2019.06.4952
中图分类号
R74 [神经病学与精神病学];
学科分类号
摘要
Introduction: Several microRNAs (miRNAs) have been implicated in Alzheimer's disease pathogenesis, but the evidence from individual case-control studies remains inconclusive. Methods: A systematic literature review was performed, followed by standardized multistage data extraction, quality control, and meta-analyses on eligible data for brain, blood, and cerebrospinal fluid specimens. Results were compared with miRNAs reported in the abstracts of eligible studies or recent qualitative reviews to assess novelty. Results: Data from 147 independent data sets across 107 publications were quantitatively assessed in 461 meta-analyses. Twenty-five, five, and 32 miRNAs showed studywide significant differential expression (alpha < 1.08 x 10(-4)) in brain, cerebrospinal fluid, and blood-derived specimens, respectively, with 5 miRNAs showing differential expression in both brain and blood. Of these 57 miRNAs, 13 had not been reported in the abstracts of previous original or review articles. Discussion: Our systematic assessment of differential miRNA expression is the first of its kind in Alzheimer's disease and highlights several miRNAs of potential relevance. (C) 2019 the Alzheimer's Association. Published by Elsevier Inc. All rights reserved.
引用
收藏
页码:1468 / 1477
页数:10
相关论文
共 33 条
  • [1] Systematic meta-analyses of Alzheimer disease genetic association studies: the AlzGene database
    Bertram, Lars
    McQueen, Matthew B.
    Mullin, Kristina
    Blacker, Deborah
    Tanzi, Rudolph E.
    [J]. NATURE GENETICS, 2007, 39 (01) : 17 - 23
  • [2] MicroRNA-298 and MicroRNA-328 Regulate Expression of Mouse β-Amyloid Precursor Protein-converting Enzyme 1
    Boissonneault, Vincent
    Plante, Isabelle
    Rivest, Serge
    Provost, Patrick
    [J]. JOURNAL OF BIOLOGICAL CHEMISTRY, 2009, 284 (04) : 1971 - 1981
  • [3] Transcriptome-wide Discovery of microRNA Binding Sites in Human Brain
    Boudreau, Ryan L.
    Jiang, Peng
    Gilmore, Brian L.
    Spengler, Ryan M.
    Tirabassi, Rebecca
    Nelson, Jay A.
    Ross, Christopher A.
    Xing, Yi
    Davidson, Beverly L.
    [J]. NEURON, 2014, 81 (02) : 294 - 305
  • [4] Profiles of Extracellular miRNA in Cerebrospinal Fluid and Serum from Patients with Alzheimer's and Parkinson's Diseases Correlate with Disease Status and Features of Pathology
    Burgos, Kasandra
    Malenica, Ivana
    Metpally, Raghu
    Courtright, Amanda
    Rakela, Benjamin
    Beach, Thomas
    Shill, Holly
    Adler, Charles
    Sabbagh, Marwan
    Villa, Stephen
    Tembe, Waibhav
    Craig, David
    Van Keuren-Jensen, Kendall
    [J]. PLOS ONE, 2014, 9 (05):
  • [5] miRTarBase update 2018: a resource for experimentally validated microRNA-target interactions
    Chou, Chih-Hung
    Shrestha, Sirjana
    Yang, Chi-Dung
    Chang, Nai-Wen
    Lin, Yu-Ling
    Liao, Kuang-Wen
    Huang, Wei-Chi
    Sun, Ting-Hsuan
    Tu, Siang-Jyun
    Lee, Wei-Hsiang
    Chiew, Men-Yee
    Tai, Chun-San
    Wei, Ting-Yen
    Tsai, Tzi-Ren
    Huang, Hsin-Tzu
    Wang, Chung-Yu
    Wu, Hsin-Yi
    Ho, Shu-Yi
    Chen, Pin-Rong
    Chuang, Cheng-Hsun
    Hsieh, Pei-Jung
    Wu, Yi-Shin
    Chen, Wen-Liang
    Li, Meng-Ju
    Wu, Yu-Chun
    Huang, Xin-Yi
    Ng, Fung Ling
    Buddhakosai, Waradee
    Huang, Pei-Chun
    Lan, Kuan-Chun
    Huang, Chia-Yen
    Weng, Shun-Long
    Cheng, Yeong-Nan
    Liang, Chao
    Hsu, Wen-Lian
    Huang, Hsien-Da
    [J]. NUCLEIC ACIDS RESEARCH, 2018, 46 (D1) : D296 - D302
  • [6] Identification of miRNA changes in Alzheimer's disease brain and CSF yields putative biomarkers and insights into disease pathways
    Cogswell, John P.
    Ward, James
    Taylor, Ian A.
    Waters, Michelle
    Shi, Yunling
    Cannon, Brian
    Kelnar, Kevin
    Kemppainen, Jon
    Brown, David
    Chen, Caifu
    Prinjha, Rab K.
    Richardson, Jill C.
    Saunders, Ann M.
    Roses, Allen D.
    Richards, Cynthia A.
    [J]. JOURNAL OF ALZHEIMERS DISEASE, 2008, 14 (01) : 27 - 41
  • [7] MicroRNAs as biomarkers for CNS cancer and other disorders
    De Smaele, Enrico
    Ferretti, Elisabetta
    Gulino, Alberto
    [J]. BRAIN RESEARCH, 2010, 1338 : 100 - 111
  • [8] Specific serum and CSF microRNA profiles distinguish sporadic behavioural variant of frontotemporal dementia compared with Alzheimer patients and cognitively healthy controls
    Denk, Johannes
    Oberhauser, Felix
    Kornhuber, Johannes
    Wiltfang, Jens
    Fassbender, Klaus
    Schroeter, Matthias L.
    Volk, Alexander E.
    Diehl-Schmid, Janine
    Prudlo, Johannes
    Danek, Adrian
    Landwehrmeyer, Bernhard
    Lauer, Martin
    Otto, Markus
    Jahn, Holger
    [J]. PLOS ONE, 2018, 13 (05):
  • [9] Genetic analysis of over 1 million people identifies 535 new loci associated with blood pressure traits
    Evangelou, Evangelos
    Warren, Helen R.
    Mosen-Ansorena, David
    Mifsu, Borbala
    Pazoki, Raha
    Gao, He
    Ntritsos, Georgios
    Dimou, Niki
    Cabrer, Claudia P.
    Karaman, Ibrahim
    Ng, FuLiang
    Evangelou, Marina
    Witkowska, Katarzyna
    Tzanis, Evan
    Hellwege, Jacklyn N.
    Giri, Ayush
    Edwards, Digna R. Velez
    Sun, Yan, V
    Cho, Kelly
    Gaziano, J. Michael
    Wilson, Peter W. F.
    Tsao, Philip S.
    Kovesdy, Csaba P.
    Esko, Tonu
    Magi, Reedik
    Milani, Lili
    Almgren, Peter
    Boutin, Thibaud
    Debette, Stephanie
    Ding, Jun
    Giulianini, Franco
    Holliday, Elizabeth G.
    Jackson, Anne U.
    Li-Gao, Ruifang
    Lin, Wei-Yu
    Luan, Jian'an
    Mangino, Massimo
    Oldmeadow, Christopher
    Prins, Bram Peter
    Qian, Yong
    Sargurupremraj, Muralidharan
    Shah, Nabi
    Surendran, Praveen
    Theriault, Sebastien
    Verweij, Niek
    Willems, Sara M.
    Zhao, Jing-Hua
    Amouyel, Philippe
    Connell, John
    de Mutsert, Renee
    [J]. NATURE GENETICS, 2018, 50 (10) : 1412 - +
  • [10] Circulating miRNAs as Potential Biomarkers in Alzheimer's Disease
    Galimberti, Daniela
    Villa, Chiara
    Fenoglio, Chiara
    Serpente, Maria
    Ghezzi, Laura
    Cioffi, Sara M. G.
    Arighi, Andrea
    Fumagalli, Giorgio
    Scarpini, Elio
    [J]. JOURNAL OF ALZHEIMERS DISEASE, 2014, 42 (04) : 1261 - 1267
1234