Author:
Rexach Jessica E.,Cheng Yuyan,Chen Lawrence,Polioudakis Damon,Lin Li-Chun,Mitri Vivianne,Elkins Andrew,Yin Anna,Calini Daniela,Kawaguchi Riki,Ou Jing,Huang Jerry,Williams Christopher,Robinson John,Gaus Stephanie E.,Spina Salvatore,Lee Edward B.,Grinberg Lea T.,Vinters Harry,Trojanowski John Q.,Seeley William W.,Malhotra Dheeraj,Geschwind Daniel H.
Abstract
Summary/AbstractThe development of successful therapeutics for dementias requires an understanding of their shared and distinct molecular features in the human brain. We performed single-nuclear RNAseq and ATACseq in Alzheimer disease (AD), Frontotemporal degeneration (FTD), and Progressive Supranuclear Palsy (PSP), analyzing 40 participants, yielding over 1.4M cells from three brain regions ranging in vulnerability and pathological burden. We identify 35 shared disease-associated cell types and 14 that are disease-specific, replicating those previously identified in AD. Disease-specific cell states represent molecular features of disease-specific glial-immune mechanisms and neuronal vulnerability in each disorder, layer 4/5 intra-telencephalic neurons in AD, layer 2/3 intra-telencephalic neurons in FTD, and layer 5/6 near-projection neurons in PSP. We infer intrinsic disease-associated gene regulatory networks, which we empirically validate by chromatin footprinting. We find that causal genetic risk acts in specific neuronal and glial cells that differ across disorders, primarily non-neuronal cells in AD and specific neuronal subtypes in FTD and PSP. These data illustrate the heterogeneous spectrum of glial and neuronal composition and gene expression alterations in different dementias and identify new therapeutic targets by revealing shared and disease-specific cell states.
Publisher
Cold Spring Harbor Laboratory
Cited by
6 articles.
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