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Integrated multimodal cell atlas of Alzheimer’s disease

Mariano I. Gabitto, Kyle J. Travaglini, Victoria M. Rachleff, Eitan S Kaplan, Brian Long, Jeanelle Ariza, Yi Ding, Joseph T. Mahoney, Nick Dee, Jeff Goldy, Erica J. Melief, Anamika Agrawal, Omar Kana, Xingjian Zhen, Samuel T. Barlow, Krissy Brouner, Jazmin Campos, John Campos, Ambrose Carr, Tamara Casper, Rushil Chakrabarty, Michael Clark, Jonah Cool, Rachel Dalley, Martin Darvas, Song‐Lin Ding, Tim Dolbeare, Tom Egdorf, Luke Esposito, Rebecca Ferrer, Lynn E. Fleckenstein, Rohan Gala, Amanda Gary, Emily Gelfand, Jessica Gloe, Nathan Guilford, Junitta Guzman, Daniel Hirschstein, Windy Ho, Madison Hupp, Tim Jarsky, Nelson Johansen, Brian Kalmbach, Lisa M. Keene, Sarah Khawand, Mitchell D. Kilgore, Amanda Kirkland, Michael Kunst, Brian R. Lee, Mckaila Leytze, Christine L. Mac Donald, Jocelin Malone, Zoe Maltzer, Naomi Martin, Rachel McCue, Delissa McMillen, Gonzalo E. Mena, Emma Meyerdierks, Kelly Meyers, Tyler Mollenkopf, Mark Montine, Amber Nolan, Julie Nyhus, Paul Olsen, Maiya I Pacleb, Chelsea M. Pagan, Nicholas Peña, Trangthanh Pham, Christina Alice Pom, Nadia Postupna, Christine Rimorin, Augustin Ruiz, Giuseppe-Antonio Saldi, Aimee Schantz, Nadiya V. Shapovalova, Staci A. Sorensen, Brian Staats, Matt Sullivan, Susan M. Sunkin, Carol L. Thompson, Michael Tieu, Jonathan T. Ting, Amy Torkelson, Tracy Tran, Nasmil Valera Cuevas, Sarah Walling-Bell, Ming-Qiang Wang, Jack Waters, Angela Wilson, Ming Xiao, David R. Haynor, Nicole M. Gatto, Suman Jayadev, Shoaib Mufti, Lydia Ng, Shubhabrata Mukherjee, Paul K. Crane, Caitlin S. Latimer, Boaz P. Levi, Kimberly A. Smith

2024Nature Neuroscience260 citationsDOIOpen Access PDF

Abstract

Abstract Alzheimer’s disease (AD) is the leading cause of dementia in older adults. Although AD progression is characterized by stereotyped accumulation of proteinopathies, the affected cellular populations remain understudied. Here we use multiomics, spatial genomics and reference atlases from the BRAIN Initiative to study middle temporal gyrus cell types in 84 donors with varying AD pathologies. This cohort includes 33 male donors and 51 female donors, with an average age at time of death of 88 years. We used quantitative neuropathology to place donors along a disease pseudoprogression score. Pseudoprogression analysis revealed two disease phases: an early phase with a slow increase in pathology, presence of inflammatory microglia, reactive astrocytes, loss of somatostatin + inhibitory neurons, and a remyelination response by oligodendrocyte precursor cells; and a later phase with exponential increase in pathology, loss of excitatory neurons and Pvalb + and Vip + inhibitory neuron subtypes. These findings were replicated in other major AD studies.

Topics & Concepts

NeuropathologyNeuroscienceMicrogliaNeurodegenerationRemyelinationDementiaDiseaseAlzheimer's diseaseBiologyMedicinePathologyMyelinCentral nervous systemInternal medicineInflammationNeuroinflammation and Neurodegeneration MechanismsSingle-cell and spatial transcriptomicsAlzheimer's disease research and treatments