CSF1R inhibitor JNJ-40346527 attenuates microglial proliferation and neurodegeneration in P301S mice

Renzo Mancuso; Gemma Fryatt; Madeleine Cleal; Juliane Obst; Elena Pipi; Jimena Monzón‐Sandoval; Elena M. Ribé; Laura Winchester; Caleb Webber; Alejo Nevado‐Holgado; Tom Jacobs; Nigel Austin; Clara Theunis; Karolien Grauwen; Eva Ruiz; Amritpal Mudher; Marta Vicente-Rodriguez; Christine A. Parker; Camilla Simmons; Diana Cash; Jill Richardson; Edward T. Bullmore; Junaid Bhatti; Samuel J Chamberlain; Marta Correia; Anna Crofts; Amber Dickinson; Andrew C Foster; Manfred G. Kitzbichler; Clare Knight; Mary-Ellen Lynall; Christina Maurice; Ciara O’Donnell; Linda Pointon; Peter St George‐Hyslop; Lorinda Turner; Petra E. Vértes; Barry Widmer; Guy Williams; B. Paul Morgan; Claire A. Leckey; Angharad R. Morgan; Caroline O’Hagan; Samuel Touchard; Jonathan Cavanagh; Catherine Deith; Scott Farmer; John McClean; Alison McColl; Andrew McPherson; Paul Scouller; Murray Sutherland; H.W.G.M. Boddeke; Jill Richardson; Shahid A. Khan; Phil Murphy; Christine A. Parker; Jai Patel; Declan N.C. Jones; Peter de Boer; John A. Kemp; Wayne C. Drevets; Jeffrey S. Nye; Gayle Wittenberg; John Isaac; Anindya Bhattacharya; Nick Carruthers; Hartmuth C. Kolb; Carmine M. Pariante; Federico Turkheimer; Gareth J. Barker; Heidi Byrom; Diana Cash; Annamaria Cattaneo; Antony D. Gee; Caitlin Hastings; Nicole Mariani; Anna McLaughlin; Valeria Mondelli; Maria Antonietta Nettis; Naghmeh Nikkheslat; Karen Randall; Hannah Sheridan; Camilla Simmons; Nisha Singh; Victoria Van Loo; Marta Vicente-Rodriguez; Tobias Wood; Courtney Worrell; Zuzanna Zajkowska; Niels Plath; Jan Egebjerg; Hans Eriksson; François Gastambide; Karen Husted Adams; Ross Jeggo; Christian Thomsen; Jan Pederson; Brian Campbell; T. Möller; Bob Nelson; Stevin H. Zorn; Jason C. O’Connor; Mary-Jane Attenburrow; Alison L. Baird; Jithen Benjamin; Stuart Clare; Philip J. Cowen; I-Shu Huang; Samuel A. Hurley; Helen Jones; Simon Lovestone; Francisca Mada; Alejo Nevado‐Holgado; Akintayo Oladejo; Elena M. Ribé; Katy D. Smith; Anviti Vyas; Zoë A. Hughes; Rita J. Balice‐Gordon; James M. Duerr; Justin R. Piro; Jonathan Sporn; V Hugh Perry PI; Madeleine Cleal; Gemma Fryatt; Diego Gómez‐Nicola; Renzo Mancuso; Richard Reynolds; Neil A. Harrison; Mara Cercignani; Charlotte Clarke; Elizabeth E. Hoskins; Charmaine Kohn; Rosemary Murray; Lauren Wilcock; Dominika Wlazly; Howard T.J. Mount; Declan N.C. Jones; Simon Lovestone; Diego Gómez‐Nicola; V. Hugh Perry

doi:10.1093/brain/awz241

CSF1R inhibitor JNJ-40346527 attenuates microglial proliferation and neurodegeneration in P301S mice

Brain

July 24, 2019

10.1093/brain/awz241

Cited by 240Open Access

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Abstract

Neuroinflammation and microglial activation are significant processes in Alzheimer's disease pathology. Recent genome-wide association studies have highlighted multiple immune-related genes in association with Alzheimer's disease, and experimental data have demonstrated microglial proliferation as a significant component of the neuropathology. In this study, we tested the efficacy of the selective CSF1R inhibitor JNJ-40346527 (JNJ-527) in the P301S mouse tauopathy model. We first demonstrated the anti-proliferative effects of JNJ-527 on microglia in the ME7 prion model, and its impact on the inflammatory profile, and provided potential CNS biomarkers for clinical investigation with the compound, including pharmacokinetic/pharmacodynamics and efficacy assessment by TSPO autoradiography and CSF proteomics. Then, we showed for the first time that blockade of microglial proliferation and modification of microglial phenotype leads to an attenuation of tau-induced neurodegeneration and results in functional improvement in P301S mice. Overall, this work strongly supports the potential for inhibition of CSF1R as a target for the treatment of Alzheimer's disease and other tau-mediated neurodegenerative diseases.

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