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Cell-type signatures of Alzheimer's disease shared across population groups.

Created on 16 Jul 2026

Authors

Tain Luquez, Jonathan Algoo, Rebecca Chiu, Jason A Mares, Archana Yadav, Matti Lam, Pallavi Gaur, Xiaoying Lai, Dylan I Lee, Fahad Paryani, Rafe Batchelor, Irla Belli, Jordan Henry, Bat Hoter-Ishay, Courteney Mattison, Lindsey Starr, Tsering Lama, Berke Karaahmet, Wenqing Cao, Philip L De Jager, Mariko Taga, Lisa L Barnes, David X Marquez, David A Bennett, Ya Zhang, Vilas Menon

Published in

Nature. Jul 15, 2026. Epub Jul 15, 2026.

Abstract

Genomic studies at single-cell resolution have identified several cell types associated with clinical and pathological traits in Alzheimer's disease1-9, but have not examined associations that are shared across populations. To bridge this gap, here we use single-nucleus RNA sequencing and assay for transposase-accessible chromatin with sequencing to profile cortical and subcortical regions in post-mortem brain-tissue samples from Latin, white (excluding Latin) and African American (excluding Latin) individuals. Using discrete and continuous dissections of molecular programs, we identify cell-type-specific clusters associated with Alzheimer's disease in a region-specific manner across all three population groups, including microglial (GPNMB+ and CD74+ subgroups), astrocytic (SERPINH1+, CD44+ and WIF1+ subgroups) and neuronal (SST+ GABAergic and superficial-layer glutamatergic) signatures. We also report continuous gene-expression factors in astrocytes and oligodendrocytes that are not captured by discrete cluster assignments, but which show strong associations with disease phenotypes; these factors are enriched for genes associated with annotated functions such as lipid processing and neurotransmitter reuptake. Finally, we find that molecular programs reveal six distinct subgroups of individuals with cognitive impairment that span all three populations, are not captured by neuropathology, and are instead distinguished by molecular signatures that are not universally present but are nonetheless associated with ante-mortem impairment. Overall, our study identifies key cell types and gene programs implicated in Alzheimer's disease that are shared across population groups, and underscores how representative sampling can capture both shared signatures and disease heterogeneity, thereby enabling better prioritization of key cell types for further investigation.

PMID:
42457956
Bibliographic data and abstract were imported from PubMed on 16 Jul 2026.

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