Plasma microRNA profiling distinguishes patients with frontotemporal dementia from healthy subjects

被引:37
作者
Grasso, Margherita [1 ]
Piscopo, Paola [2 ]
Talarico, Giuseppina [3 ]
Ricci, Leonardo [4 ,5 ]
Crestini, Alessio [2 ]
Tosto, Giuseppe [6 ]
Gasparini, Marina [3 ]
Bruno, Giuseppe [3 ]
Denti, Michela A. [1 ]
Confaloni, Annamaria [2 ]
机构
[1] Dept Cellular Computat & Integrat Biol CIBIO, Trento, Italy
[2] Ist Super Sanita, Dept Neurosci, Viale Regina Elena 299, I-00161 Rome, Italy
[3] Sapienza Univ Rome, Dept Neurol & Psychiat, Rome, Italy
[4] Univ Trento, Dept Phys, Trento, Italy
[5] Univ Trento, Ctr Mind Brain Sci, CIMeC, Rovereto, Italy
[6] Columbia Univ Coll Phys & Surg, Taub Inst Res Alzheimers Dis & Aging Brain, 630 W 168th St, New York, NY 10032 USA
来源
NEUROBIOLOGY OF AGING | 2019年 / 84卷
关键词
Frontotemporal dementia; Biomarkers; MicroRNAs; Gender; RT-qPCR; LOBAR DEGENERATION; NEUROTROPHIC FACTOR; ALZHEIMERS-DISEASE; REFERENCE GENES; COLON-CANCER; MIR-206; BIOMARKERS; TDP-43; PROLIFERATION; NORMALIZATION;
D O I
10.1016/j.neurobiolaging.2019.01.024
中图分类号
R592 [老年病学]; C [社会科学总论];
学科分类号
03 ; 0303 ; 100203 ;
摘要
The purpose of this study was to develop an easy and minimally invasive assay to detect a plasma miRNA profile in frontotemporal dementia (FTD) patients, with the final aim of discriminating between FTD patients and healthy controls (HCs). After a global miRNA profiling, significant downregulation of miR-663a, miR-502-3p, and miR-206 (p = 0.0001, p = 0.0002, and p = 0.02 respectively) in FTD patients was confirmed when compared with HCs in a larger case-control sample. Moreover, miR-663a and miR-502-3p showed significant differences in both genders, whereas miR-206, only in male subjects. To obtain a discriminating measure between FTD patients and HCs, we calculated a combined score of the 3 miRNAs by applying a Bayesian approach and obtaining a classifier with an accuracy of 84.4%. Moreover, for men, combined miRNA levels showed an excellent sensitivity (100%) and a good specificity (87.5%) in distinguishing FTD patients from HCs. All these findings open new hypotheses in the pathophysiology and new perspectives in the diagnosis of a complex pathology as FTD. (C) 2019 Elsevier Inc. All rights reserved.
引用
收藏
页码:240.e1 / 240.e12
页数:12
相关论文
共 82 条
  • [11] Denervation-related alterations and biological activity of miRNAs contained in exosomes released by skeletal muscle fibers
    De Gasperi, Rita
    Hamidi, Sayyed
    Harlow, Lauren M.
    Ksiezak-Reding, Hanna
    Bauman, William A.
    Cardozo, Christopher P.
    [J]. SCIENTIFIC REPORTS, 2017, 7
  • [12] 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):
  • [13] MicroRNA Cluster 221-222 and Estrogen Receptor α Interactions in Breast Cancer
    Di Leva, Gianpiero
    Gasparini, Pierluigi
    Piovan, Claudia
    Ngankeu, Apollinaire
    Garofalo, Michela
    Taccioli, Cristian
    Iorio, Marilena V.
    Li, Meng
    Volinia, Stefano
    Alder, Hansjuerg
    Nakamura, Tatsuya
    Nuovo, Gerard
    Liu, Yunlong
    Nephew, Kenneth P.
    Croce, Carlo M.
    [J]. JNCI-JOURNAL OF THE NATIONAL CANCER INSTITUTE, 2010, 102 (10): : 706 - 721
  • [14] Comparison of Analytical Platforms for Cerebrospinal Fluid Measures of β-Amyloid 1-42, Total tau, and P-tau181 for Identifying Alzheimer Disease Amyloid Plaque Pathology
    Fagan, Anne M.
    Shaw, Leslie M.
    Xiong, Chengjie
    Vanderstichele, Hugo
    Mintun, Mark A.
    Trojanowski, John Q.
    Coart, Els
    Morris, John C.
    Holtzman, David M.
    [J]. ARCHIVES OF NEUROLOGY, 2011, 68 (09) : 1137 - 1144
  • [15] Evidence for X-Chromosomal Schizophrenia Associated with microRNA Alterations
    Feng, Jinong
    Sun, Guihua
    Yan, Jin
    Noltner, Katie
    Li, Wenyan
    Buzin, Carolyn H.
    Longmate, Jeff
    Heston, Leonard L.
    Rossi, John
    Sommer, Steve S.
    [J]. PLOS ONE, 2009, 4 (07):
  • [16] A network of RNA and protein interactions in Fronto Temporal Dementia
    Fontana, Francesca
    Siva, Kavitha
    Denti, Michela A.
    [J]. FRONTIERS IN MOLECULAR NEUROSCIENCE, 2015, 8
  • [17] Risk factors for vascular dementia and Alzheimer disease
    Gorelick, PB
    [J]. STROKE, 2004, 35 (11) : 2620 - 2622
  • [18] Circulating miRNAs as Biomarkers for Neurodegenerative Disorders
    Grasso, Margherita
    Piscopo, Paola
    Confaloni, Annamaria
    Denti, Michela A.
    [J]. MOLECULES, 2014, 19 (05): : 6891 - 6910
  • [19] Muscle Releases Alpha-Sarcoglycan Positive Extracellular Vesicles Carrying miRNAs in the Bloodstream
    Guescini, Michele
    Canonico, Barbara
    Lucertini, Francesco
    Maggio, Serena
    Annibalini, Giosue
    Barbieri, Elena
    Luchetti, Francesca
    Papa, Stefano
    Stocchi, Vilberto
    [J]. PLOS ONE, 2015, 10 (05):
  • [20] Loss of microRNA cluster miR-29a/b-1 in sporadic Alzheimer's disease correlates with increased BACE1/β-secretase expression
    Hebert, Sebastien S.
    Horre, Katrien
    Nicolai, Laura
    Papadopoulou, Aikaterini S.
    Mandemakers, Winn
    Silahtaroglu, Asli N.
    Kauppinen, Sakari
    Delacourte, Andre
    De Strooper, Bart
    [J]. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 2008, 105 (17) : 6415 - 6420
123456789