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Clinical Neurology
Sarah L. DeVos, Bianca T. Corjuc, Caitlin Commins, Simon Dujardin, Riley N. Bannon, Diana Corjuc, Benjamin D. Moore, Rachel E. Bennett, Mehdi Jorfi, Jose A. Gonzales, Patrick M. Dooley, Allyson D. Roe, Rose Pitstick, Daniel Irimia, Matthew P. Frosch, George A. Carlson, Bradley T. Hyman
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Biochemistry & Molecular Biology
Susanne Wegmann, Bahareh Eftekharzadeh, Katharina Tepper, Katarzyna M. Zoltowska, Rachel E. Bennett, Simon Dujardin, Pawel R. Laskowski, Danny MacKenzie, Tarun Kamath, Caitlin Commins, Charles Vanderburg, Allyson D. Roe, Zhanyun Fan, Amandine M. Molliex, Amayra Hernandez-Vega, Daniel Muller, Anthony A. Hyman, Eckhard Mandelkow, J. Paul Taylor, Bradley T. Hyman
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Neurosciences
Bahareh Eftekharzadeh, J. Gavin Daigle, Larisa E. Kapinos, Alyssa Coyne, Julia Schiantarelli, Yari Carlomagno, Casey Cook, Sean J. Miller, Simon Dujardin, Ana S. Amaral, Jonathan C. Grima, Rachel E. Bennett, Katharina Tepper, Michael DeTure, Charles R. Vanderburgh, Bianca T. Corjuc, Sarah L. DeVos, Jose Antonio Gonzalez, Jeannie Chew, Svetlana Vidensky, Fred H. Gage, Jerome Mertens, Juan Troncoso, Eckhard Mandelkow, Xavier Salvatella, Roderick Y. H. Lim, Leonard Petrucelli, Susanne Wegmann, Jeffrey D. Rothstein, Bradley T. Hyman
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Neurosciences
Marc Aurel Busche, Susanne Wegmann, Simon Dujardin, Caitlin Commins, Julia Schiantarelli, Naomi Klickstein, Tarunv Kamath, Georgea Carlson, Israel Nelken, Bradley T. Hyman
NATURE NEUROSCIENCE
(2019)
Correction
Neurosciences
Bahareh Eftekharzadeh, J. Gavin Daigle, Larisa E. Kapinos, Alyssa Coyne, Julia Schiantarelli, Yari Carlomagno, Casey Cook, Sean J. Miller, Simon Dujardin, Ana S. Amaral, Jonathan C. Grima, Rachel E. Bennett, Katharina Tepper, Michael DeTure, Charles R. Vanderburg, Bianca T. Corjuc, Sarah L. DeVos, Jose Antonio Gonzalez, Jeannie Chew, Svetlana Vidensky, Fred H. Gage, Jerome Mertens, Juan Troncoso, Eckhard Mandelkow, Xavier Salvatella, Roderick Y. H. Lim, Leonard Petrucelli, Susanne Wegmann, Jeffrey D. Rothstein, Bradley T. Hyman
Review
Clinical Neurology
Morvane Colin, Simon Dujardin, Susanna Schraen-Maschke, Guy Meno-Tetang, Charles Duyckaerts, Jean-Philippe Courade, Luc Buee
ACTA NEUROPATHOLOGICA
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Maria Calvo-Rodriguez, Steven S. Hou, Austin C. Snyder, Simon Dujardin, Hamid Shirani, K. Peter R. Nilsson, Brian J. Bacskai
ACTA NEUROPATHOLOGICA COMMUNICATIONS
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Medicine, Research & Experimental
Killian S. Hanlon, Jonah C. Meltzer, Tetyana Buzhdygan, Ming J. Cheng, Miguel Sena-Esteves, Rachel E. Bennett, Timothy P. Sullivan, Roshanak Razmpour, Yi Gong, Carrie Ng, Josette Nammour, Daniela Maiz, Simon Dujardin, Servio H. Ramirez, Eloise Hudry, Casey A. Maguire
MOLECULAR THERAPY-METHODS & CLINICAL DEVELOPMENT
(2019)
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Biochemistry & Molecular Biology
Simon Dujardin, Caitlin Commins, Aurelien Lathuiliere, Pieter Beerepoot, Analiese R. Fernandes, Tarun Kamath, Mark B. De Los Santos, Naomi Klickstein, Diana L. Corjuc, Bianca T. Corjuc, Patrick M. Dooley, Arthur Viode, Derek H. Oakley, Benjamin D. Moore, Kristina Mullin, Dinorah Jean-Gilles, Ryan Clark, Kevin Atchison, Renee Moore, Lori B. Chibnik, Rudolph E. Tanzi, Matthew P. Frosch, Alberto Serrano-Pozo, Fiona Elwood, Judith A. Steen, Matthew E. Kennedy, Bradley T. Hyman
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Marta Perez-Rando, Simon Dujardin, Rachel E. Bennett, Caitlin Commins, Tara Nibhanupudy, Bradley T. Hyman
ACTA NEUROPATHOLOGICA COMMUNICATIONS
(2020)
Correction
Biochemistry & Molecular Biology
Simon Dujardin, Caitlin Commins, Aurelien Lathuiliere, Pieter Beerepoot, Analiese R. Fernandes, Tarun V. Kamath, Mark B. De Los Santos, Naomi Klickstein, Diana L. Corjuc, Bianca T. Corjuc, Patrick M. Dooley, Arthur Viode, Derek H. Oakley, Benjamin D. Moore, Kristina Mullin, Dinorah Jean-Gilles, Ryan Clark, Kevin Atchison, Renee Moore, Lori B. Chibnik, Rudolph E. Tanzi, Matthew P. Frosch, Alberto Serrano-Pozo, Fiona Elwood, Judith A. Steen, Matthew E. Kennedy, Bradley T. Hyman
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Neurosciences
Derek H. Oakley, Naomi Klickstein, Caitlin Commins, Mirra Chung, Simon Dujardin, Rachel E. Bennett, Bradley T. Hyman, Matthew P. Frosch
Summary: This study established an accelerated human neuronal model incorporating soluble tau species and tau aggregation, and showed that uptake of exogenous tau seeds increases the risk of neuronal death. Specific morphologic strains of Tau aggregation were identified to be associated with differing levels of neurotoxicity. Additionally, iPSC neurons expressing the PSEN1 L435F mutation exhibited accelerated Tau aggregation kinetics and a bias in tau strain propagation.
JOURNAL OF NEUROSCIENCE
(2021)
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Clinical Neurology
Analiese R. Fernandes, Simon Dujardin, Anastasie Mate de Gerando, Bradley T. Hyman, Matthew P. Frosch
Summary: The study evaluated the impact of standard sterilization and cleaning methods on the capacity of tau seeds to induce aggregation, finding that autoclaving and incubation in 90.6% formic acid were effective in reducing tau bioactivity. The findings highlight nuances in methods for inactivation of tau seeding, which may support adapted tissue processing procedures.
JOURNAL OF NEUROPATHOLOGY AND EXPERIMENTAL NEUROLOGY
(2021)
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Clinical Neurology
Simon Dujardin, Analiese Fernandes, Riley Bannon, Caitlin Commins, Mark De Los Santos, Tarun Kamath, Mansuo Hayashi, Bradley T. Hyman
Summary: This study found that the expression of human tau protein in the brains of mice with different genetic backgrounds leads to varying levels of tau cell-to-cell spreading. However, the rate of tau misfolding accumulation remains the same. The findings suggest that genetic factors may contribute to the progression of tau pathology.
BRAIN COMMUNICATIONS
(2022)
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Clinical Neurology
Tarun Kamath, Naomi Klickstein, Caitlin Commins, Analiese R. Fernandes, Derek H. Oakley, Matthew P. Frosch, Bradley T. Hyman, Simon Dujardin
Summary: The accumulation of tau aggregates in tauopathies display "prion-like" behavior, with differences in structures among different conditions. Recent studies have shown biochemical and bioactive differences in tau species among individuals with sporadic Alzheimer's disease. Live-cell imaging revealed a consistent aggregation pattern with distinct parameters, including lag phase and growth phase, dependent on seeding-competent tau concentration. The kinetics of aggregation may reflect underlying structural differences in tau aggregates, confirming heterogeneity in tau proteopathic seeds among Alzheimer's disease patients.
BRAIN COMMUNICATIONS
(2021)
