Identification of evolutionarily conserved gene networks mediating neurodegenerative dementia

Swarup, Vivek; Hinz, Flora I.; Rexach, Jessica E.; Noguchi, Ken-ichi; Toyoshiba, Hiroyoshi; Oda, Akira; Hirai, Keisuke; Sarkar, Arjun; Seyfried, Nicholas T.; Cheng, Chialin; Haggarty, Stephen J.; Ferrari, Roberto; Rohrer, Jonathan; Ramasamy, Adaikalavan; Hardy, John; Hernandez, Dena; Nalls, Michael; Singleton, Andrew; Kwok, John; Dobson-Stone, Carol; Brooks, William; Schofield, Peter R.; Halliday, Glenda Margaret; Hodges, John; Piguet, Olivier; Bartley, Lauren; Thompson, Elizabeth; Haan, Eric; Hernández, Isabel; Ruiz, A.; Boada, Mercè; Borroni, Barbara; Padovani, Alessandro; Cairns, Nigel J.; Cruchaga, Carlos; Binetti, Giuliano; Ghidoni, Roberta; Benussi, Luisa; Forloni, Gianluigi; Albani, Diego; Galimberti, Daniela; Fenoglio, Chiara; Serpente, Maria; Scarpini, Elio; Clarimón, Jordi; Lleo, Alberto; Blesa, Rafael; Waldö, Maria Landqvist; Nilsson, Karin; Nilsson, Christer; Mackenzie, Ian; Hsiung, Ging-Yuek R.; Mann, David; Grafman, Jordan; Morris, Chris; Attems, Johannes; Griffiths, Timothy; McKeith, Ian; Thomas, Alan; Jaros, Julian; Pietrini, P.; Huey, Edward; Wassermann, Eric; Tierney, Michael C.; Baborie, Atik; Pastor, Pau; Ortega-Cubero, Sara; Razquin, Cristina; Alonso, Elena; Perneczky, Robert; Diehl-Schmid, Janine; Alexopoulos, Evangelos; Kurz, A.; Rainero, Innocenzo; Rubino, Maurizio; Pinessi, Lorenzo; Rogaeva, Ekaterina; George-Hyslop, Peter St.; Rossi, Giacomina; Tagliavini, Fabrizio; Giaccone, Giuseppe; Rowe, James; Schlachetzki, Johannes C.; Uphill, James; Collinge, John; Mead, Simon; Danek, Adrian; Van Deerlin, Vivianna M.; Grossman, Murray; Trojanowski, John Q.; Pickering-Brown, Stuart; Momeni, Parastoo; van der Zee, Jill; Cruts, Marc; van Broeckhoven, Christine; Cappa, Stefano; Leber, Isabelle; Brice, A.; Hannequin, Didier; Golfier, Véronique; Vercelletto, Martine; Nacmias, Benedetta; Sorbi, Sandro; Bagnoli, Silvia; Piaceri, Irene; Nielsen, Jørgen E.; Hjermind, Lena; Riemenschneider, Matthias; Mayhaus, Manuel; Gasparoni, Gilles; Pichler, Irene; Ibach, Bernd; Rossor, Martin; Fox, Nick; Warren, Jason; Spillantini, M.G.; Morris, Huw; Rizzu, Patrizia; Heutink, Peter; Snowden, Julie; Rollinson, Sara; Gerhard, Alex; Richardson, Anna; Bruni, Amalia; Maletta, Raffaele; Frangipane, Francesca; Cupidi, Chiara; Bernardi, Livia; Anfossi, Maria; Gallo, Valentina; Conidi, Andrea; Smirne, Nicoletta; Rademakers, Suzanne; Baker, Matthew; Dickson, Dennis; Graff-Radford, Neill; Petersen, Ronald C.; Knopman, David; Josephs, Keith; Boeve, Bradley; Parisi, Joseph; Miller, Bruce Lars; Karydas, Anna M.; Rosen, Howard; Seeley, William W.; van Swieten, John; Dopper, Elise; Seelaar, Harro; Pijnenburg, Yolande; Scheltens, Philip; Logroscino, Giancarlo; Capozzo, Rosa; Novelli, Valeria; Puca, Annibale; Franceschi, Claudio; Postiglione, Alfredo; Milan, David; Sorrentino, Dario; Kristiansen, Mark; Chiang, Y.T.; Graff, Caroline; Pasquier, Florence; Rollin, Adeline; Deramecourt, Vincent; Lebouvier, Thibaud; Ferrucci, Luigi; Kapogiannis, Dimitrios; Grossman, Murray; Deerlin, Vivianna; Trojanowski, John Q.; Lah, James J.; Levey, Allan; Kondou, Shinichi; Geschwind, H.

doi:10.1038/s41591-018-0223-3

Identifying the mechanisms through which genetic risk causes dementia is an imperative for new therapeutic development. Here, we apply a multistage, systems biology approach to elucidate the disease mechanisms in frontotemporal dementia. We identify two gene coexpression modules that are preserved in mice harboring mutations in MAPT, GRN and other dementia mutations on diverse genetic backgrounds. We bridge the species divide via integration with proteomic and transcriptomic data from the human brain to identify evolutionarily conserved, disease-relevant networks. We find that overexpression of miR-203, a hub of a putative regulatory microRNA (miRNA) module, recapitulates mRNA coexpression patterns associated with disease state and induces neuronal cell death, establishing this miRNA as a regulator of neurodegeneration. Using a database of drug-mediated gene expression changes, we identify small molecules that can normalize the disease-associated modules and validate this experimentally. Our results highlight the utility of an integrative, cross-species network approach to drug discovery.

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Persistent URL	doi.org/10.1038/s41591-018-0223-3, hdl.handle.net/1765/113073
Journal	Nature Medicine
Organisation	Department of Neurology
Citation APA Style AAA Style APA Style Cell Style Chicago Style Harvard Style IEEE Style MLA Style Nature Style Vancouver Style American-Institute-of-Physics Style Council-of-Science-Editors Style BibTex Format Endnote Format RIS Format CSL Format DOIs only Format	Swarup, V. (Vivek), Hinz, F.I. (Flora I.), Rexach, J.E. (Jessica E.), Noguchi, K.-I. (Ken-ichi), Toyoshiba, H. (Hiroyoshi), Oda, A. (Akira), … Geschwind, H. (2018). Identification of evolutionarily conserved gene networks mediating neurodegenerative dementia. Nature Medicine. doi:10.1038/s41591-018-0223-3

Identification of evolutionarily conserved gene networks mediating neurodegenerative dementia

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Identification of evolutionarily conserved gene networks mediating neurodegenerative dementia

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