Gene Expression Imputation Across Multiple Tissue Types Provides Insight Into the Genetic Architecture of Frontotemporal Dementia and Its Clinical Subtypes

Lianne M. Reus; Bogdan Pasaniuc; Danielle Posthuma; Toni Boltz; International FTD-Genomics Consortium; Raffaele Ferrari; Dena G. Hernandez; Michael A. Nalls; Jonathan D. Rohrer; Adaikalavan Ramasamy; John B. J. Kwok; Carol Dobson-Stone; William S. Brooks; Peter R. Schofield; Glenda M. Halliday; John R. Hodges; Olivier Piguet; Lauren Bartley; Elizabeth Thompson; Isabel Hernández; Agustín Ruiz; Mercè Boada; Barbara Borroni; Alessandro Padovani; Carlos Cruchaga; Nigel J. Cairns; Luisa Benussi; Giuliano Binetti; Roberta Ghidoni; Gianluigi Forloni; Daniela Galimberti; Chiara Fenoglio; Maria Serpente; Elio Scarpini; Jordi Clarimón; Alberto Lleó; Rafael Blesa; Maria Landqvist Waldö; Karin Nilsson; Christer Nilsson; Ian R. A. Mackenzie; Ging-Yuek R. Hsiung; David M. A. Mann; Jordan Grafman; Christopher M. Morris; Johannes Attems; Timothy D. Griffiths; Ian G. McKeith; Alan J. Thomas; Pietro Pietrini; Edward D. Huey; Eric M. Wassermann; Atik Baborie; Evelyn Jaros; Michael C. Tierney; Pau Pastor; Cristina Razquin; Sara Ortega-Cubero; Elena Alonso; Robert Perneczky; Janine Diehl-Schmid; Panagiotis Alexopoulos; Alexander Kurz; Innocenzo Rainero; Elisa Rubino; Lorenzo Pinessi; Ekaterina Rogaeva; Peter St. George-Hyslop; Giacomina Rossi; Fabrizio Tagliavini; Giorgio Giaccone; James B. Rowe; Johannes C. M. Schlachetzki; James Uphill; John Collinge; Simon Mead; Adrian Danek; Vivianna M. van Deerlin; Murray Grossman; John Q. Trojanowski; Julie van der Zee; Christine van Broeckhoven; Stefano F. Cappa; Isabelle le Ber; Didier Hannequin; V. ronique Golfier; Martine Vercelletto; Alexis Brice; Benedetta Nacmias; Sandro Sorbi; Silvia Bagnoli; Irene Piaceri; J. rgen E. Nielsen; Lena E. Hjermind; Matthias Riemenschneider; Manuel Mayhaus; Bernd Ibach; Gilles Gasparoni; Sabrina Pichler; Wei Gu; Martin N. Rossor; Nick C. Fox; Jason D. Warren; Maria Grazia Spillantini; Huw R. Morris; Patrizia Rizzu; Peter Heutink; Julie S. Snowden; Sara Rollinson; Anna Richardson; Alexander Gerhard; Amalia C. Bruni; Raffaele Maletta; Francesca Frangipane; Chiara Cupidi; Livia Bernardi; Maria Anfossi; Maura Gallo; Maria Elena Conidi; Nicoletta Smirne; Rosa Rademakers; Matt Baker; Dennis W. Dickson; Neill R. Graff-Radford; Ronald C. Petersen; David Knopman; Keith A. Josephs; Bradley F. Boeve; Joseph E. Parisi; William W. Seeley; Bruce L. Miller; Anna M. Karydas; Howard Rosen; John C. van Swieten; Elise G. P. Dopper; Harro Seelaar; Yolande A. L. Pijnenburg; Philip Scheltens; Giancarlo Logroscino; Rosa Capozzo; Valeria Novelli; Annibale A. Puca; Massimo Franceschi; Alfredo Postiglione; Graziella Milan; Paolo Sorrentino; Mark Kristiansen; Huei-Hsin Chiang; Caroline Graff; Florence Pasquier; Adeline Rollin; Vincent Deramecourt; Florence Lebert; Dimitrios Kapogiannis; Luigi Ferrucci; Stuart Pickering-Brown; Andrew B. Singleton; John Hardy; Parastoo Momeni; Roel A. Ophoff

doi:10.1016/j.biopsych.2020.12.023

Gene Expression Imputation Across Multiple Tissue Types Provides Insight Into the Genetic Architecture of Frontotemporal Dementia and Its Clinical Subtypes

Lianne M. Reus^*, Bogdan Pasaniuc, Danielle Posthuma, Toni Boltz, International FTD-Genomics Consortium, Raffaele Ferrari, Dena G. Hernandez, Michael A. Nalls, Jonathan D. Rohrer, Adaikalavan Ramasamy, John B. J. Kwok, Carol Dobson-Stone, William S. Brooks, Peter R. Schofield, Glenda M. Halliday, John R. Hodges, Olivier Piguet, Lauren Bartley, Elizabeth Thompson, Isabel HernándezAgustín Ruiz, Mercè Boada, Barbara Borroni, Alessandro Padovani, Carlos Cruchaga, Nigel J. Cairns, Luisa Benussi, Giuliano Binetti, Roberta Ghidoni, Gianluigi Forloni, Daniela Galimberti, Chiara Fenoglio, Maria Serpente, Elio Scarpini, Jordi Clarimón, Alberto Lleó, Rafael Blesa, Maria Landqvist Waldö, Karin Nilsson, Christer Nilsson, Ian R. A. Mackenzie, Ging-Yuek R. Hsiung, David M. A. Mann, Jordan Grafman, Christopher M. Morris, Johannes Attems, Timothy D. Griffiths, Ian G. McKeith, Alan J. Thomas, Pietro Pietrini, Edward D. Huey, Eric M. Wassermann, Atik Baborie, Evelyn Jaros, Michael C. Tierney, Pau Pastor, Cristina Razquin, Sara Ortega-Cubero, Elena Alonso, Robert Perneczky, Janine Diehl-Schmid, Panagiotis Alexopoulos, Alexander Kurz, Innocenzo Rainero, Elisa Rubino, Lorenzo Pinessi, Ekaterina Rogaeva, Peter St. George-Hyslop, Giacomina Rossi, Fabrizio Tagliavini, Giorgio Giaccone, James B. Rowe, Johannes C. M. Schlachetzki, James Uphill, John Collinge, Simon Mead, Adrian Danek, Vivianna M. van Deerlin, Murray Grossman, John Q. Trojanowski, Julie van der Zee, Christine van Broeckhoven, Stefano F. Cappa, Isabelle le Ber, Didier Hannequin, V. ronique Golfier, Martine Vercelletto, Alexis Brice, Benedetta Nacmias, Sandro Sorbi, Silvia Bagnoli, Irene Piaceri, J. rgen E. Nielsen, Lena E. Hjermind, Matthias Riemenschneider, Manuel Mayhaus, Bernd Ibach, Gilles Gasparoni, Sabrina Pichler, Wei Gu, Martin N. Rossor, Nick C. Fox, Jason D. Warren, Maria Grazia Spillantini, Huw R. Morris, Patrizia Rizzu, Peter Heutink, Julie S. Snowden, Sara Rollinson, Anna Richardson, Alexander Gerhard, Amalia C. Bruni, Raffaele Maletta, Francesca Frangipane, Chiara Cupidi, Livia Bernardi, Maria Anfossi, Maura Gallo, Maria Elena Conidi, Nicoletta Smirne, Rosa Rademakers, Matt Baker, Dennis W. Dickson, Neill R. Graff-Radford, Ronald C. Petersen, David Knopman, Keith A. Josephs, Bradley F. Boeve, Joseph E. Parisi, William W. Seeley, Bruce L. Miller, Anna M. Karydas, Howard Rosen, John C. van Swieten, Elise G. P. Dopper, Harro Seelaar, Yolande A. L. Pijnenburg, Philip Scheltens, Giancarlo Logroscino, Rosa Capozzo, Valeria Novelli, Annibale A. Puca, Massimo Franceschi, Alfredo Postiglione, Graziella Milan, Paolo Sorrentino, Mark Kristiansen, Huei-Hsin Chiang, Caroline Graff, Florence Pasquier, Adeline Rollin, Vincent Deramecourt, Florence Lebert, Dimitrios Kapogiannis, Luigi Ferrucci, Stuart Pickering-Brown, Andrew B. Singleton, John Hardy, Parastoo Momeni, Roel A. Ophoff

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Background: The etiology of frontotemporal dementia (FTD) is poorly understood. To identify genes with predicted expression levels associated with FTD, we integrated summary statistics with external reference gene expression data using a transcriptome-wide association study approach. Methods: FUSION software was used to leverage FTD summary statistics (all FTD: n = 2154 cases, n = 4308 controls; behavioral variant FTD: n = 1337 cases, n = 2754 controls; semantic dementia: n = 308 cases, n = 616 controls; progressive nonfluent aphasia: n = 269 cases, n = 538 controls; FTD with motor neuron disease: n = 200 cases, n = 400 controls) from the International FTD-Genomics Consortium with 53 expression quantitative loci tissue type panels (n = 12,205; 5 consortia). Significance was assessed using a 5% false discovery rate threshold. Results: We identified 73 significant gene–tissue associations for FTD, representing 44 unique genes in 34 tissue types. Most significant findings were derived from dorsolateral prefrontal cortex splicing data (n = 19 genes, 26%). The 17q21.31 inversion locus contained 23 significant associations, representing 6 unique genes. Other top hits included SEC22B (a gene involved in vesicle trafficking), TRGV5, and ZNF302. A single gene finding (RAB38) was observed for behavioral variant FTD. For other clinical subtypes, no significant associations were observed. Conclusions: We identified novel candidate genes (e.g., SEC22B) and previously reported risk regions (e.g., 17q21.31) for FTD. Most significant associations were observed in dorsolateral prefrontal cortex splicing data despite the modest sample size of this reference panel. This suggests that our findings are specific to FTD and are likely to be biologically relevant highlights of genes at different FTD risk loci that are contributing to the disease pathology.

Original language	English
Pages (from-to)	825-835
Number of pages	11
Journal	Biological Psychiatry
Volume	89
Issue number	8
Early online date	2021
DOIs	https://doi.org/10.1016/j.biopsych.2020.12.023
Publication status	Published - 15 Apr 2021

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10.1016/j.biopsych.2020.12.023

Cite this

Reus, L. M., Pasaniuc, B., Posthuma, D., Boltz, T., International FTD-Genomics Consortium, Ferrari, R., Hernandez, D. G., Nalls, M. A., Rohrer, J. D., Ramasamy, A., Kwok, J. B. J., Dobson-Stone, C., Brooks, W. S., Schofield, P. R., Halliday, G. M., Hodges, J. R., Piguet, O., Bartley, L., Thompson, E., ... Ophoff, R. A. (2021). Gene Expression Imputation Across Multiple Tissue Types Provides Insight Into the Genetic Architecture of Frontotemporal Dementia and Its Clinical Subtypes. Biological Psychiatry, 89(8), 825-835. https://doi.org/10.1016/j.biopsych.2020.12.023

@article{9a000d21d4d8478a8a1cdfd3f83f600f,

title = "Gene Expression Imputation Across Multiple Tissue Types Provides Insight Into the Genetic Architecture of Frontotemporal Dementia and Its Clinical Subtypes",

abstract = "Background: The etiology of frontotemporal dementia (FTD) is poorly understood. To identify genes with predicted expression levels associated with FTD, we integrated summary statistics with external reference gene expression data using a transcriptome-wide association study approach. Methods: FUSION software was used to leverage FTD summary statistics (all FTD: n = 2154 cases, n = 4308 controls; behavioral variant FTD: n = 1337 cases, n = 2754 controls; semantic dementia: n = 308 cases, n = 616 controls; progressive nonfluent aphasia: n = 269 cases, n = 538 controls; FTD with motor neuron disease: n = 200 cases, n = 400 controls) from the International FTD-Genomics Consortium with 53 expression quantitative loci tissue type panels (n = 12,205; 5 consortia). Significance was assessed using a 5% false discovery rate threshold. Results: We identified 73 significant gene–tissue associations for FTD, representing 44 unique genes in 34 tissue types. Most significant findings were derived from dorsolateral prefrontal cortex splicing data (n = 19 genes, 26%). The 17q21.31 inversion locus contained 23 significant associations, representing 6 unique genes. Other top hits included SEC22B (a gene involved in vesicle trafficking), TRGV5, and ZNF302. A single gene finding (RAB38) was observed for behavioral variant FTD. For other clinical subtypes, no significant associations were observed. Conclusions: We identified novel candidate genes (e.g., SEC22B) and previously reported risk regions (e.g., 17q21.31) for FTD. Most significant associations were observed in dorsolateral prefrontal cortex splicing data despite the modest sample size of this reference panel. This suggests that our findings are specific to FTD and are likely to be biologically relevant highlights of genes at different FTD risk loci that are contributing to the disease pathology.",

keywords = "17q21.31 inversion region, Dorsolateral prefrontal cortex, Expression quantitative trait loci (eQTL), Frontotemporal dementia, SEC22B, Transcriptome-wide association study",

author = "Reus, {Lianne M.} and Bogdan Pasaniuc and Danielle Posthuma and Toni Boltz and {International FTD-Genomics Consortium} and Raffaele Ferrari and Hernandez, {Dena G.} and Nalls, {Michael A.} and Rohrer, {Jonathan D.} and Adaikalavan Ramasamy and Kwok, {John B. J.} and Carol Dobson-Stone and Brooks, {William S.} and Schofield, {Peter R.} and Halliday, {Glenda M.} and Hodges, {John R.} and Olivier Piguet and Lauren Bartley and Elizabeth Thompson and Isabel Hern{\'a}ndez and Agust{\'i}n Ruiz and Merc{\`e} Boada and Barbara Borroni and Alessandro Padovani and Carlos Cruchaga and Cairns, {Nigel J.} and Luisa Benussi and Giuliano Binetti and Roberta Ghidoni and Gianluigi Forloni and Daniela Galimberti and Chiara Fenoglio and Maria Serpente and Elio Scarpini and Jordi Clarim{\'o}n and Alberto Lle{\'o} and Rafael Blesa and Wald{\"o}, {Maria Landqvist} and Karin Nilsson and Christer Nilsson and Mackenzie, {Ian R. A.} and Hsiung, {Ging-Yuek R.} and Mann, {David M. A.} and Jordan Grafman and Morris, {Christopher M.} and Johannes Attems and Griffiths, {Timothy D.} and McKeith, {Ian G.} and Thomas, {Alan J.} and Pietro Pietrini and Huey, {Edward D.} and Wassermann, {Eric M.} and Atik Baborie and Evelyn Jaros and Tierney, {Michael C.} and Pau Pastor and Cristina Razquin and Sara Ortega-Cubero and Elena Alonso and Robert Perneczky and Janine Diehl-Schmid and Panagiotis Alexopoulos and Alexander Kurz and Innocenzo Rainero and Elisa Rubino and Lorenzo Pinessi and Ekaterina Rogaeva and {St. George-Hyslop}, Peter and Giacomina Rossi and Fabrizio Tagliavini and Giorgio Giaccone and Rowe, {James B.} and Schlachetzki, {Johannes C. M.} and James Uphill and John Collinge and Simon Mead and Adrian Danek and {van Deerlin}, {Vivianna M.} and Murray Grossman and Trojanowski, {John Q.} and {van der Zee}, Julie and {van Broeckhoven}, Christine and Cappa, {Stefano F.} and {le Ber}, Isabelle and Didier Hannequin and Golfier, {V. ronique} and Martine Vercelletto and Alexis Brice and Benedetta Nacmias and Sandro Sorbi and Silvia Bagnoli and Irene Piaceri and Nielsen, {J. rgen E.} and Hjermind, {Lena E.} and Matthias Riemenschneider and Manuel Mayhaus and Bernd Ibach and Gilles Gasparoni and Sabrina Pichler and Wei Gu and Rossor, {Martin N.} and Fox, {Nick C.} and Warren, {Jason D.} and Spillantini, {Maria Grazia} and Morris, {Huw R.} and Patrizia Rizzu and Peter Heutink and Snowden, {Julie S.} and Sara Rollinson and Anna Richardson and Alexander Gerhard and Bruni, {Amalia C.} and Raffaele Maletta and Francesca Frangipane and Chiara Cupidi and Livia Bernardi and Maria Anfossi and Maura Gallo and Conidi, {Maria Elena} and Nicoletta Smirne and Rosa Rademakers and Matt Baker and Dickson, {Dennis W.} and Graff-Radford, {Neill R.} and Petersen, {Ronald C.} and David Knopman and Josephs, {Keith A.} and Boeve, {Bradley F.} and Parisi, {Joseph E.} and Seeley, {William W.} and Miller, {Bruce L.} and Karydas, {Anna M.} and Howard Rosen and {van Swieten}, {John C.} and Dopper, {Elise G. P.} and Harro Seelaar and Pijnenburg, {Yolande A. L.} and Philip Scheltens and Giancarlo Logroscino and Rosa Capozzo and Valeria Novelli and Puca, {Annibale A.} and Massimo Franceschi and Alfredo Postiglione and Graziella Milan and Paolo Sorrentino and Mark Kristiansen and Huei-Hsin Chiang and Caroline Graff and Florence Pasquier and Adeline Rollin and Vincent Deramecourt and Florence Lebert and Dimitrios Kapogiannis and Luigi Ferrucci and Stuart Pickering-Brown and Singleton, {Andrew B.} and John Hardy and Parastoo Momeni and Ophoff, {Roel A.}",

note = "Funding Information: This project has been supported by a personal Alzheimer Nederland fellowship for LMR called “Genetic and functional overlap between behavioural variant frontotemporal dementia and psychiatric disorders” (Grant No. WE.15-2018-11). YALP received a personal fellowship from the Dutch Brain Foundation. Research of the Alzheimer Center Amsterdam is part of the neurodegeneration research program of Amsterdam Neuroscience. The Alzheimer Center Amsterdam is supported by Stichting Alzheimer Nederland and Stichting VUmc Fonds . Analyses were supported by the EU-PRISM Project ( www.prism-project.eu ), which received funding from the Innovative Medicines Initiative 2 Joint Undertaking (Grant No. 115916 ). This Joint Undertaking receives support from the European Union{\textquoteright}s Horizon 2020 research and innovation program and the European Federation of Pharmaceutical Industries and Associations. Funding Information: This project has been supported by a personal Alzheimer Nederland fellowship for LMR called ?Genetic and functional overlap between behavioural variant frontotemporal dementia and psychiatric disorders? (Grant No. WE.15-2018-11). YALP received a personal fellowship from the Dutch Brain Foundation. Research of the Alzheimer Center Amsterdam is part of the neurodegeneration research program of Amsterdam Neuroscience. The Alzheimer Center Amsterdam is supported by Stichting Alzheimer Nederland and Stichting VUmc Fonds. Analyses were supported by the EU-PRISM Project (www.prism-project.eu), which received funding from the Innovative Medicines Initiative 2 Joint Undertaking (Grant No. 115916). This Joint Undertaking receives support from the European Union's Horizon 2020 research and innovation program and the European Federation of Pharmaceutical Industries and Associations. Funding sources had no role in the design and conduct of the study, data collection, data analysis, and data interpretation or in the writing and approval of this article. We thank and acknowledge the IFGC. We also acknowledge Nick Mancuso (Keck School of Medicine, University of Southern California) for his part in calculating the reference weights for the TWAS analysis. A previous version of this article was published as a preprint on bioRxiv: https://doi.org/10.1101/2020.06.23.166355. The authors report no biomedical financial interests or potential conflicts of interest. Publisher Copyright: {\textcopyright} 2021 Society of Biological Psychiatry Copyright: Copyright 2021 Elsevier B.V., All rights reserved.",

year = "2021",

month = apr,

day = "15",

doi = "10.1016/j.biopsych.2020.12.023",

language = "English",

volume = "89",

pages = "825--835",

journal = "Biological Psychiatry",

issn = "0006-3223",

publisher = "Elsevier USA",

number = "8",

}

Reus, LM, Pasaniuc, B, Posthuma, D, Boltz, T, International FTD-Genomics Consortium, Ferrari, R, Hernandez, DG, Nalls, MA, Rohrer, JD, Ramasamy, A, Kwok, JBJ, Dobson-Stone, C, Brooks, WS, Schofield, PR, Halliday, GM, Hodges, JR, Piguet, O, Bartley, L, Thompson, E, Hernández, I, Ruiz, A, Boada, M, Borroni, B, Padovani, A, Cruchaga, C, Cairns, NJ, Benussi, L, Binetti, G, Ghidoni, R, Forloni, G, Galimberti, D, Fenoglio, C, Serpente, M, Scarpini, E, Clarimón, J, Lleó, A, Blesa, R, Waldö, ML, Nilsson, K, Nilsson, C, Mackenzie, IRA, Hsiung, G-YR, Mann, DMA, Grafman, J, Morris, CM, Attems, J, Griffiths, TD, McKeith, IG, Thomas, AJ, Pietrini, P, Huey, ED, Wassermann, EM, Baborie, A, Jaros, E, Tierney, MC, Pastor, P, Razquin, C, Ortega-Cubero, S, Alonso, E, Perneczky, R, Diehl-Schmid, J, Alexopoulos, P, Kurz, A, Rainero, I, Rubino, E, Pinessi, L, Rogaeva, E, St. George-Hyslop, P, Rossi, G, Tagliavini, F, Giaccone, G, Rowe, JB, Schlachetzki, JCM, Uphill, J, Collinge, J, Mead, S, Danek, A, van Deerlin, VM, Grossman, M, Trojanowski, JQ, van der Zee, J, van Broeckhoven, C, Cappa, SF, le Ber, I, Hannequin, D, Golfier, VR, Vercelletto, M, Brice, A, Nacmias, B, Sorbi, S, Bagnoli, S, Piaceri, I, Nielsen, JRE, Hjermind, LE, Riemenschneider, M, Mayhaus, M, Ibach, B, Gasparoni, G, Pichler, S, Gu, W, Rossor, MN, Fox, NC, Warren, JD, Spillantini, MG, Morris, HR, Rizzu, P, Heutink, P, Snowden, JS, Rollinson, S, Richardson, A, Gerhard, A, Bruni, AC, Maletta, R, Frangipane, F, Cupidi, C, Bernardi, L, Anfossi, M, Gallo, M, Conidi, ME, Smirne, N, Rademakers, R, Baker, M, Dickson, DW, Graff-Radford, NR, Petersen, RC, Knopman, D, Josephs, KA, Boeve, BF, Parisi, JE, Seeley, WW, Miller, BL, Karydas, AM, Rosen, H, van Swieten, JC, Dopper, EGP, Seelaar, H, Pijnenburg, YAL , Scheltens, P, Logroscino, G, Capozzo, R, Novelli, V, Puca, AA, Franceschi, M, Postiglione, A, Milan, G, Sorrentino, P, Kristiansen, M, Chiang, H-H, Graff, C, Pasquier, F, Rollin, A, Deramecourt, V, Lebert, F, Kapogiannis, D, Ferrucci, L, Pickering-Brown, S, Singleton, AB, Hardy, J, Momeni, P & Ophoff, RA 2021, 'Gene Expression Imputation Across Multiple Tissue Types Provides Insight Into the Genetic Architecture of Frontotemporal Dementia and Its Clinical Subtypes', Biological Psychiatry, vol. 89, no. 8, pp. 825-835. https://doi.org/10.1016/j.biopsych.2020.12.023

TY - JOUR

T1 - Gene Expression Imputation Across Multiple Tissue Types Provides Insight Into the Genetic Architecture of Frontotemporal Dementia and Its Clinical Subtypes

AU - Reus, Lianne M.

AU - Pasaniuc, Bogdan

AU - Posthuma, Danielle

AU - Boltz, Toni

AU - International FTD-Genomics Consortium

AU - Ferrari, Raffaele

AU - Hernandez, Dena G.

AU - Nalls, Michael A.

AU - Rohrer, Jonathan D.

AU - Ramasamy, Adaikalavan

AU - Kwok, John B. J.

AU - Dobson-Stone, Carol

AU - Brooks, William S.

AU - Schofield, Peter R.

AU - Halliday, Glenda M.

AU - Hodges, John R.

AU - Piguet, Olivier

AU - Bartley, Lauren

AU - Thompson, Elizabeth

AU - Hernández, Isabel

AU - Ruiz, Agustín

AU - Boada, Mercè

AU - Borroni, Barbara

AU - Padovani, Alessandro

AU - Cruchaga, Carlos

AU - Cairns, Nigel J.

AU - Benussi, Luisa

AU - Binetti, Giuliano

AU - Ghidoni, Roberta

AU - Forloni, Gianluigi

AU - Galimberti, Daniela

AU - Fenoglio, Chiara

AU - Serpente, Maria

AU - Scarpini, Elio

AU - Clarimón, Jordi

AU - Lleó, Alberto

AU - Blesa, Rafael

AU - Waldö, Maria Landqvist

AU - Nilsson, Karin

AU - Nilsson, Christer

AU - Mackenzie, Ian R. A.

AU - Hsiung, Ging-Yuek R.

AU - Mann, David M. A.

AU - Grafman, Jordan

AU - Morris, Christopher M.

AU - Attems, Johannes

AU - Griffiths, Timothy D.

AU - McKeith, Ian G.

AU - Thomas, Alan J.

AU - Pietrini, Pietro

AU - Huey, Edward D.

AU - Wassermann, Eric M.

AU - Baborie, Atik

AU - Jaros, Evelyn

AU - Tierney, Michael C.

AU - Pastor, Pau

AU - Razquin, Cristina

AU - Ortega-Cubero, Sara

AU - Alonso, Elena

AU - Perneczky, Robert

AU - Diehl-Schmid, Janine

AU - Alexopoulos, Panagiotis

AU - Kurz, Alexander

AU - Rainero, Innocenzo

AU - Rubino, Elisa

AU - Pinessi, Lorenzo

AU - Rogaeva, Ekaterina

AU - St. George-Hyslop, Peter

AU - Rossi, Giacomina

AU - Tagliavini, Fabrizio

AU - Giaccone, Giorgio

AU - Rowe, James B.

AU - Schlachetzki, Johannes C. M.

AU - Uphill, James

AU - Collinge, John

AU - Mead, Simon

AU - Danek, Adrian

AU - van Deerlin, Vivianna M.

AU - Grossman, Murray

AU - Trojanowski, John Q.

AU - van der Zee, Julie

AU - van Broeckhoven, Christine

AU - Cappa, Stefano F.

AU - le Ber, Isabelle

AU - Hannequin, Didier

AU - Golfier, V. ronique

AU - Vercelletto, Martine

AU - Brice, Alexis

AU - Nacmias, Benedetta

AU - Sorbi, Sandro

AU - Bagnoli, Silvia

AU - Piaceri, Irene

AU - Nielsen, J. rgen E.

AU - Hjermind, Lena E.

AU - Riemenschneider, Matthias

AU - Mayhaus, Manuel

AU - Ibach, Bernd

AU - Gasparoni, Gilles

AU - Pichler, Sabrina

AU - Gu, Wei

AU - Rossor, Martin N.

AU - Fox, Nick C.

AU - Warren, Jason D.

AU - Spillantini, Maria Grazia

AU - Morris, Huw R.

AU - Rizzu, Patrizia

AU - Heutink, Peter

AU - Snowden, Julie S.

AU - Rollinson, Sara

AU - Richardson, Anna

AU - Gerhard, Alexander

AU - Bruni, Amalia C.

AU - Maletta, Raffaele

AU - Frangipane, Francesca

AU - Cupidi, Chiara

AU - Bernardi, Livia

AU - Anfossi, Maria

AU - Gallo, Maura

AU - Conidi, Maria Elena

AU - Smirne, Nicoletta

AU - Rademakers, Rosa

AU - Baker, Matt

AU - Dickson, Dennis W.

AU - Graff-Radford, Neill R.

AU - Petersen, Ronald C.

AU - Knopman, David

AU - Josephs, Keith A.

AU - Boeve, Bradley F.

AU - Parisi, Joseph E.

AU - Seeley, William W.

AU - Miller, Bruce L.

AU - Karydas, Anna M.

AU - Rosen, Howard

AU - van Swieten, John C.

AU - Dopper, Elise G. P.

AU - Seelaar, Harro

AU - Pijnenburg, Yolande A. L.

AU - Scheltens, Philip

AU - Logroscino, Giancarlo

AU - Capozzo, Rosa

AU - Novelli, Valeria

AU - Puca, Annibale A.

AU - Franceschi, Massimo

AU - Postiglione, Alfredo

AU - Milan, Graziella

AU - Sorrentino, Paolo

AU - Kristiansen, Mark

AU - Chiang, Huei-Hsin

AU - Graff, Caroline

AU - Pasquier, Florence

AU - Rollin, Adeline

AU - Deramecourt, Vincent

AU - Lebert, Florence

AU - Kapogiannis, Dimitrios

AU - Ferrucci, Luigi

AU - Pickering-Brown, Stuart

AU - Singleton, Andrew B.

AU - Hardy, John

AU - Momeni, Parastoo

AU - Ophoff, Roel A.

N1 - Funding Information: This project has been supported by a personal Alzheimer Nederland fellowship for LMR called “Genetic and functional overlap between behavioural variant frontotemporal dementia and psychiatric disorders” (Grant No. WE.15-2018-11). YALP received a personal fellowship from the Dutch Brain Foundation. Research of the Alzheimer Center Amsterdam is part of the neurodegeneration research program of Amsterdam Neuroscience. The Alzheimer Center Amsterdam is supported by Stichting Alzheimer Nederland and Stichting VUmc Fonds . Analyses were supported by the EU-PRISM Project ( www.prism-project.eu ), which received funding from the Innovative Medicines Initiative 2 Joint Undertaking (Grant No. 115916 ). This Joint Undertaking receives support from the European Union’s Horizon 2020 research and innovation program and the European Federation of Pharmaceutical Industries and Associations. Funding Information: This project has been supported by a personal Alzheimer Nederland fellowship for LMR called ?Genetic and functional overlap between behavioural variant frontotemporal dementia and psychiatric disorders? (Grant No. WE.15-2018-11). YALP received a personal fellowship from the Dutch Brain Foundation. Research of the Alzheimer Center Amsterdam is part of the neurodegeneration research program of Amsterdam Neuroscience. The Alzheimer Center Amsterdam is supported by Stichting Alzheimer Nederland and Stichting VUmc Fonds. Analyses were supported by the EU-PRISM Project (www.prism-project.eu), which received funding from the Innovative Medicines Initiative 2 Joint Undertaking (Grant No. 115916). This Joint Undertaking receives support from the European Union's Horizon 2020 research and innovation program and the European Federation of Pharmaceutical Industries and Associations. Funding sources had no role in the design and conduct of the study, data collection, data analysis, and data interpretation or in the writing and approval of this article. We thank and acknowledge the IFGC. We also acknowledge Nick Mancuso (Keck School of Medicine, University of Southern California) for his part in calculating the reference weights for the TWAS analysis. A previous version of this article was published as a preprint on bioRxiv: https://doi.org/10.1101/2020.06.23.166355. The authors report no biomedical financial interests or potential conflicts of interest. Publisher Copyright: © 2021 Society of Biological Psychiatry Copyright: Copyright 2021 Elsevier B.V., All rights reserved.

PY - 2021/4/15

Y1 - 2021/4/15

N2 - Background: The etiology of frontotemporal dementia (FTD) is poorly understood. To identify genes with predicted expression levels associated with FTD, we integrated summary statistics with external reference gene expression data using a transcriptome-wide association study approach. Methods: FUSION software was used to leverage FTD summary statistics (all FTD: n = 2154 cases, n = 4308 controls; behavioral variant FTD: n = 1337 cases, n = 2754 controls; semantic dementia: n = 308 cases, n = 616 controls; progressive nonfluent aphasia: n = 269 cases, n = 538 controls; FTD with motor neuron disease: n = 200 cases, n = 400 controls) from the International FTD-Genomics Consortium with 53 expression quantitative loci tissue type panels (n = 12,205; 5 consortia). Significance was assessed using a 5% false discovery rate threshold. Results: We identified 73 significant gene–tissue associations for FTD, representing 44 unique genes in 34 tissue types. Most significant findings were derived from dorsolateral prefrontal cortex splicing data (n = 19 genes, 26%). The 17q21.31 inversion locus contained 23 significant associations, representing 6 unique genes. Other top hits included SEC22B (a gene involved in vesicle trafficking), TRGV5, and ZNF302. A single gene finding (RAB38) was observed for behavioral variant FTD. For other clinical subtypes, no significant associations were observed. Conclusions: We identified novel candidate genes (e.g., SEC22B) and previously reported risk regions (e.g., 17q21.31) for FTD. Most significant associations were observed in dorsolateral prefrontal cortex splicing data despite the modest sample size of this reference panel. This suggests that our findings are specific to FTD and are likely to be biologically relevant highlights of genes at different FTD risk loci that are contributing to the disease pathology.

AB - Background: The etiology of frontotemporal dementia (FTD) is poorly understood. To identify genes with predicted expression levels associated with FTD, we integrated summary statistics with external reference gene expression data using a transcriptome-wide association study approach. Methods: FUSION software was used to leverage FTD summary statistics (all FTD: n = 2154 cases, n = 4308 controls; behavioral variant FTD: n = 1337 cases, n = 2754 controls; semantic dementia: n = 308 cases, n = 616 controls; progressive nonfluent aphasia: n = 269 cases, n = 538 controls; FTD with motor neuron disease: n = 200 cases, n = 400 controls) from the International FTD-Genomics Consortium with 53 expression quantitative loci tissue type panels (n = 12,205; 5 consortia). Significance was assessed using a 5% false discovery rate threshold. Results: We identified 73 significant gene–tissue associations for FTD, representing 44 unique genes in 34 tissue types. Most significant findings were derived from dorsolateral prefrontal cortex splicing data (n = 19 genes, 26%). The 17q21.31 inversion locus contained 23 significant associations, representing 6 unique genes. Other top hits included SEC22B (a gene involved in vesicle trafficking), TRGV5, and ZNF302. A single gene finding (RAB38) was observed for behavioral variant FTD. For other clinical subtypes, no significant associations were observed. Conclusions: We identified novel candidate genes (e.g., SEC22B) and previously reported risk regions (e.g., 17q21.31) for FTD. Most significant associations were observed in dorsolateral prefrontal cortex splicing data despite the modest sample size of this reference panel. This suggests that our findings are specific to FTD and are likely to be biologically relevant highlights of genes at different FTD risk loci that are contributing to the disease pathology.

KW - 17q21.31 inversion region

KW - Dorsolateral prefrontal cortex

KW - Expression quantitative trait loci (eQTL)

KW - Frontotemporal dementia

KW - SEC22B

KW - Transcriptome-wide association study

UR - http://www.scopus.com/inward/record.url?scp=85101343818&partnerID=8YFLogxK

U2 - 10.1016/j.biopsych.2020.12.023

DO - 10.1016/j.biopsych.2020.12.023

M3 - Article

C2 - 33637304

VL - 89

SP - 825

EP - 835

JO - Biological Psychiatry

JF - Biological Psychiatry

SN - 0006-3223

IS - 8

ER -

Gene Expression Imputation Across Multiple Tissue Types Provides Insight Into the Genetic Architecture of Frontotemporal Dementia and Its Clinical Subtypes

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