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Multicellular communities are perturbed in the aging human brain and Alzheimer’s disease
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Multicellular communities are perturbed in the aging human brain and Alzheimer’s disease
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Journal Article
Multicellular communities are perturbed in the aging human brain and Alzheimer’s disease
2023
Overview
The role of different cell types and their interactions in Alzheimer’s disease (AD) is a complex and open question. Here, we pursued this question by assembling a high-resolution cellular map of the aging frontal cortex using single-nucleus RNA sequencing of 24 individuals with a range of clinicopathologic characteristics. We used this map to infer the neocortical cellular architecture of 638 individuals profiled by bulk RNA sequencing, providing the sample size necessary for identifying statistically robust associations. We uncovered diverse cell populations associated with AD, including a somatostatin inhibitory neuronal subtype and oligodendroglial states. We further identified a network of multicellular communities, each composed of coordinated subpopulations of neuronal, glial and endothelial cells, and we found that two of these communities are altered in AD. Finally, we used mediation analyses to prioritize cellular changes that might contribute to cognitive decline. Thus, our deconstruction of the aging neocortex provides a roadmap for evaluating the cellular microenvironments underlying AD and dementia.
By inferring the cellular landscape of the neocortex in 638 aged individuals from RNA profiles, the authors uncovered unique cellular communities composed of coordinated populations of multiple cell types, which were altered in Alzheimer’s disease.
Publisher
Nature Publishing Group US,Nature Publishing Group
