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APOE modulates microglial immunometabolism in response to age, amyloid pathology, and inflammatory challenge

by Schwartz, James L , Clarke, Harrison A , Maclean, Steven M , Williams, Holden C , Smith, Cathryn T , Morillo-Segovia, Gabriella , Hawkinson, Tara R , Allenger, Elizabeth J , Morganti, Josh M , Walsh, Adeline E , Goulding, Danielle S , Sun, Ramon C , Devanney, Nicholas A , Lee, Sangderk , Gorman, Amy A , Golden, Lesley R , Friday, Cassi M , Johnson, Lance A

in Aging / Apolipoprotein E / Apolipoprotein E4 / Glycolysis / Inflammation / Lipid metabolism / Mass spectroscopy / Metabolism / Microglia / Neuroimaging / Neuroscience / Pathology / Transcriptomes / Transcriptomics / Tricarboxylic acid cycle

2022

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APOE modulates microglial immunometabolism in response to age, amyloid pathology, and inflammatory challenge

2022

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2022

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Paper

APOE modulates microglial immunometabolism in response to age, amyloid pathology, and inflammatory challenge

Schwartz, James L,

Clarke, Harrison A,

Maclean, Steven M,

Williams, Holden C,

Smith, Cathryn T,

Morillo-Segovia, Gabriella,

Hawkinson, Tara R,

Allenger, Elizabeth J,

Morganti, Josh M,

Walsh, Adeline E,

Goulding, Danielle S,

Sun, Ramon C,

Devanney, Nicholas A,

Lee, Sangderk,

Gorman, Amy A,

Golden, Lesley R,

Friday, Cassi M,

Johnson, Lance A

2022

Overview

The E4 allele of Apolipoprotein E (APOE) is associated with both metabolic dysfunction and a heightened pro-inflammatory response — two findings that may be intrinsically linked through the concept of immunometabolism. Here, we combined bulk, single-cell, and spatial transcriptomics with cell-specific and spatially resolved metabolic analyses to systematically address the role of APOE across age, neuroinflammation, and AD pathology. RNAseq highlighted immunometabolic changes across the APOE4 glial transcriptome, specifically in subsets of metabolically distinct microglia enriched in the E4 brain during aging or following an inflammatory challenge. E4 microglia display increased Hif1α expression, a disrupted TCA cycle, and are inherently pro-glycolytic, while spatial transcriptomics and MALDI mass spectrometry imaging highlight an E4-specific response to amyloid that is characterized by widespread alterations in lipid metabolism. Taken together, our findings emphasize a central role for APOE in regulating microglial immunometabolism. Competing Interest Statement The authors have declared no competing interest. Footnotes * http://www.ljohnsonlab.com/database.html

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Cold Spring Harbor Laboratory Press,Cold Spring Harbor Laboratory

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