Literature DB >> 33472953

The cortical origin and initial spread of medial temporal tauopathy in Alzheimer's disease assessed with positron emission tomography.

Justin S Sanchez1,2,3, J Alex Becker4,2,3, Heidi I L Jacobs4,2,3,5, Bernard J Hanseeuw4,2,3,6, Shu Jiang7,8, Aaron P Schultz4,2, Michael J Properzi4,2, Samantha R Katz4,2,3, Alexa Beiser9,10,11, Claudia L Satizabal9,11,12, Adrienne O'Donnell10,11, Charles DeCarli13, Ron Killiany9,10, Georges El Fakhri4,2,3, Marc D Normandin4,2,3, Teresa Gómez-Isla4,2, Yakeel T Quiroz4,2,14, Dorene M Rentz4,2,15, Reisa A Sperling4,2,15, Sudha Seshadri9,11,12, Jean Augustinack4,2, Julie C Price4,2, Keith A Johnson1,2,3,15.   

Abstract

Advances in molecular positron emission tomography (PET) have enabled anatomic tracking of brain pathology in longitudinal studies of normal aging and dementia, including assessment of the central model of Alzheimer's disease (AD) pathogenesis, according to which TAU pathology begins focally but expands catastrophically under the influence of amyloid-β (Aβ) pathology to mediate neurodegeneration and cognitive decline. Initial TAU deposition occurs many years before Aβ in a specific area of the medial temporal lobe. Building on recent work that enabled focus of molecular PET measurements on specific TAU-vulnerable convolutional temporal lobe anatomy, we applied an automated anatomic sampling method to quantify TAU PET signal in 443 adult participants from several observational studies of aging and AD, spanning a wide range of ages, Aβ burdens, and degrees of clinical impairment. We detected initial cortical emergence of tauopathy near the rhinal sulcus in clinically normal people and, in a subset with longitudinal 2-year follow-up data (n = 104), tracked Aβ-associated spread of TAU from this site first to nearby neocortex of the temporal lobe and then to extratemporal regions. Greater rate of TAU spread was associated with baseline measures of both global Aβ burden and medial temporal lobe TAU. These findings are consistent with clinicopathological correlation studies of Alzheimer's tauopathy and enable precise tracking of AD-related TAU progression for natural history studies and prevention therapeutic trials.
Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.

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Year:  2021        PMID: 33472953      PMCID: PMC7978042          DOI: 10.1126/scitranslmed.abc0655

Source DB:  PubMed          Journal:  Sci Transl Med        ISSN: 1946-6234            Impact factor:   17.956


  64 in total

1.  Entorhinal verrucae geometry is coincident and correlates with Alzheimer's lesions: a combined neuropathology and high-resolution ex vivo MRI analysis.

Authors:  Jean C Augustinack; Kristen E Huber; Gheorghe M Postelnicu; Sita Kakunoori; Ruopeng Wang; André J W van der Kouwe; Lawrence L Wald; Thor D Stein; Matthew P Frosch; Bruce Fischl
Journal:  Acta Neuropathol       Date:  2011-12-13       Impact factor: 17.088

2.  Correlation of In Vivo [18F]Flortaucipir With Postmortem Alzheimer Disease Tau Pathology.

Authors:  Ruben Smith; Moa Wibom; Daria Pawlik; Elisabet Englund; Oskar Hansson
Journal:  JAMA Neurol       Date:  2019-03-01       Impact factor: 18.302

3.  Sequence-independent segmentation of magnetic resonance images.

Authors:  Bruce Fischl; David H Salat; André J W van der Kouwe; Nikos Makris; Florent Ségonne; Brian T Quinn; Anders M Dale
Journal:  Neuroimage       Date:  2004       Impact factor: 6.556

4.  Cortical surface-based analysis. II: Inflation, flattening, and a surface-based coordinate system.

Authors:  B Fischl; M I Sereno; A M Dale
Journal:  Neuroimage       Date:  1999-02       Impact factor: 6.556

5.  Enhanced Tau Aggregation in the Presence of Amyloid β.

Authors:  Rachel E Bennett; Sarah L DeVos; Simon Dujardin; Bianca Corjuc; Rucha Gor; Jose Gonzalez; Allyson D Roe; Matthew P Frosch; Rose Pitstick; George A Carlson; Bradley T Hyman
Journal:  Am J Pathol       Date:  2017-05-10       Impact factor: 4.307

6.  Tau PET patterns mirror clinical and neuroanatomical variability in Alzheimer's disease.

Authors:  Rik Ossenkoppele; Daniel R Schonhaut; Michael Schöll; Samuel N Lockhart; Nagehan Ayakta; Suzanne L Baker; James P O'Neil; Mustafa Janabi; Andreas Lazaris; Averill Cantwell; Jacob Vogel; Miguel Santos; Zachary A Miller; Brianne M Bettcher; Keith A Vossel; Joel H Kramer; Maria L Gorno-Tempini; Bruce L Miller; William J Jagust; Gil D Rabinovici
Journal:  Brain       Date:  2016-03-08       Impact factor: 13.501

7.  Validating novel tau positron emission tomography tracer [F-18]-AV-1451 (T807) on postmortem brain tissue.

Authors:  Marta Marquié; Marc D Normandin; Charles R Vanderburg; Isabel M Costantino; Elizabeth A Bien; Lisa G Rycyna; William E Klunk; Chester A Mathis; Milos D Ikonomovic; Manik L Debnath; Neil Vasdev; Bradford C Dickerson; Stephen N Gomperts; John H Growdon; Keith A Johnson; Matthew P Frosch; Bradley T Hyman; Teresa Gómez-Isla
Journal:  Ann Neurol       Date:  2015-09-25       Impact factor: 10.422

8.  Examination of the clinicopathologic continuum of Alzheimer disease in the autopsy cohort of the National Alzheimer Coordinating Center.

Authors:  Alberto Serrano-Pozo; Jing Qian; Sarah E Monsell; Matthew P Frosch; Rebecca A Betensky; Bradley T Hyman
Journal:  J Neuropathol Exp Neurol       Date:  2013-12       Impact factor: 3.685

9.  Staging of Alzheimer disease-associated neurofibrillary pathology using paraffin sections and immunocytochemistry.

Authors:  Heiko Braak; Irina Alafuzoff; Thomas Arzberger; Hans Kretzschmar; Kelly Del Tredici
Journal:  Acta Neuropathol       Date:  2006-08-12       Impact factor: 17.088

10.  Tau-PET uptake: Regional variation in average SUVR and impact of amyloid deposition.

Authors:  Prashanthi Vemuri; Val J Lowe; David S Knopman; Matthew L Senjem; Bradley J Kemp; Christopher G Schwarz; Scott A Przybelski; Mary M Machulda; Ronald C Petersen; Clifford R Jack
Journal:  Alzheimers Dement (Amst)       Date:  2016-12-21
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  27 in total

1.  Predicting Tau Accumulation in Cerebral Cortex with Multivariate MRI Morphometry Measurements, Sparse Coding, and Correntropy.

Authors:  Jianfeng Wu; Wenhui Zhu; Yi Su; Jie Gui; Natasha Lepore; Eric M Reiman; Richard J Caselli; Paul M Thompson; Kewei Chen; Yalin Wang
Journal:  Proc SPIE Int Soc Opt Eng       Date:  2021-12-10

Review 2.  Anti-Neurodegenerative Benefits of Acetylcholinesterase Inhibitors in Alzheimer's Disease: Nexus of Cholinergic and Nerve Growth Factor Dysfunction.

Authors:  Donald E Moss; Ruth G Perez
Journal:  Curr Alzheimer Res       Date:  2021       Impact factor: 3.498

3.  In vivo and neuropathology data support locus coeruleus integrity as indicator of Alzheimer's disease pathology and cognitive decline.

Authors:  Heidi I L Jacobs; John A Becker; Kenneth Kwong; Nina Engels-Domínguez; Prokopis C Prokopiou; Kathryn V Papp; Michael Properzi; Olivia L Hampton; Federico d'Oleire Uquillas; Justin S Sanchez; Dorene M Rentz; Georges El Fakhri; Marc D Normandin; Julie C Price; David A Bennett; Reisa A Sperling; Keith A Johnson
Journal:  Sci Transl Med       Date:  2021-09-22       Impact factor: 17.956

Review 4.  Mechanistic Models of Protein Aggregation Across Length-Scales and Time-Scales: From the Test Tube to Neurodegenerative Disease.

Authors:  Georg Meisl; Tuomas P J Knowles; David Klenerman
Journal:  Front Neurosci       Date:  2022-06-30       Impact factor: 5.152

5.  Causal links among amyloid, tau, and neurodegeneration.

Authors:  Murat Bilgel; Dean F Wong; Abhay R Moghekar; Luigi Ferrucci; Susan M Resnick
Journal:  Brain Commun       Date:  2022-07-25

Review 6.  APOE in the bullseye of neurodegenerative diseases: impact of the APOE genotype in Alzheimer's disease pathology and brain diseases.

Authors:  Rosalía Fernández-Calle; Sabine C Konings; Javier Frontiñán-Rubio; Juan García-Revilla; Lluís Camprubí-Ferrer; Martina Svensson; Isak Martinson; Antonio Boza-Serrano; José Luís Venero; Henrietta M Nielsen; Gunnar K Gouras; Tomas Deierborg
Journal:  Mol Neurodegener       Date:  2022-09-24       Impact factor: 18.879

7.  Association of Aortic Stiffness and Pressure Pulsatility With Global Amyloid-β and Regional Tau Burden Among Framingham Heart Study Participants Without Dementia.

Authors:  Leroy L Cooper; Adrienne O'Donnell; Alexa S Beiser; Emma G Thibault; Justin S Sanchez; Emelia J Benjamin; Naomi M Hamburg; Ramachandran S Vasan; Martin G Larson; Keith A Johnson; Gary F Mitchell; Sudha Seshadri
Journal:  JAMA Neurol       Date:  2022-07-01       Impact factor: 29.907

8.  Association of Midlife Depressive Symptoms with Regional Amyloid-β and Tau in the Framingham Heart Study.

Authors:  Mitzi M Gonzales; Jasmeet Samra; Adrienne O'Donnell; R Scott Mackin; Joel Salinas; Mini E Jacob; Claudia L Satizabal; Hugo J Aparicio; Emma G Thibault; Justin S Sanchez; Rebecca Finney; Zoe B Rubinstein; Danielle V Mayblyum; Ron J Killiany; Charlie S Decarli; Keith A Johnson; Alexa S Beiser; Sudha Seshadri
Journal:  J Alzheimers Dis       Date:  2021       Impact factor: 4.472

9.  Local Functional MR Change Pattern and Its Association With Cognitive Function in Objectively-Defined Subtle Cognitive Decline.

Authors:  Liang Cui; Zhen Zhang; Chun-Yi Zac Lo; Qihao Guo
Journal:  Front Aging Neurosci       Date:  2021-06-11       Impact factor: 5.750

10.  Multimodal neuroimaging of sex differences in cognitively impaired patients on the Alzheimer's continuum: greater tau-PET retention in females.

Authors:  Lauren Edwards; Renaud La Joie; Leonardo Iaccarino; Amelia Strom; Suzanne L Baker; Kaitlin B Casaletto; Yann Cobigo; Harli Grant; Minseon Kim; Joel H Kramer; Taylor J Mellinger; Julie Pham; Katherine L Possin; Howard J Rosen; David N Soleimani-Meigooni; Amy Wolf; Bruce L Miller; Gil D Rabinovici
Journal:  Neurobiol Aging       Date:  2021-04-22       Impact factor: 5.133
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