Single-nucleus RNA sequencing demonstrates an autosomal dominant Alzheimer's disease profile and possible mechanisms of disease protection.
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IF: 18.688
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Abstract

Highly penetrant autosomal dominant Alzheimer's disease (ADAD) comprises a distinct disease entity as compared to the far more prevalent form of AD in which common variants collectively contribute to risk. The downstream pathways that distinguish these AD forms in specific cell types have not been deeply explored. We compared single-nucleus transcriptomes among a set of 27 cases divided among PSEN1-E280A ADAD carriers, sporadic AD, and controls. Autophagy genes and chaperones clearly defined the PSEN1-E280A cases compared to sporadic AD. Spatial transcriptomics validated the activation of chaperone-mediated autophagy genes in PSEN1-E280A. The PSEN1-E280A case in which much of the brain was spared neurofibrillary pathology and harbored a homozygous APOE3-Christchurch variant revealed possible explanations for protection from AD pathology including overexpression of LRP1 in astrocytes, increased expression of FKBP1B, and decreased PSEN1 expression in neurons. The unique cellular responses in ADAD and sporadic AD require consideration when designing clinical trials.

Keywords

Spatial Transcriptomics
APOE3 Christchurch
PSEN1-E280A
autophagy
chaperones
single-nucleus sequencing
spatial transcriptomics
sporadic Alzheimer's disease
transcriptomics

Authors

Almeida, Maria Camila
Eger, Sarah J
He, Caroline
Audouard, Morgane
Nikitina, Arina
Glasauer, Stella M K
Han, Dasol
Mejía-Cupajita, Barbara
Acosta-Uribe, Juliana
Villalba-Moreno, Nelson David
Littau, Jessica Lisa
Elcheikhali, Megan
Rivera, Erica Keane
Carrettiero, Daniel Carneiro
Villegas-Lanau, Carlos Andrés
Sepulveda-Falla, Diego
Lopera, Francisco
Kosik, Kenneth S