mTOR-dependent translation amplifies microglia priming in aging mice
Lily Keane, … , Michael T. Heneka, Melania Capasso
Lily Keane, … , Michael T. Heneka, Melania Capasso
Published October 27, 2020
Citation Information: J Clin Invest. 2021;131(1):e132727. https://doi.org/10.1172/JCI132727.
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Research Article Aging Inflammation

mTOR-dependent translation amplifies microglia priming in aging mice

Abstract

Microglia maintain homeostasis in the brain. However, with age, they become primed and respond more strongly to inflammatory stimuli. We show here that microglia from aged mice had upregulated mTOR complex 1 signaling controlling translation, as well as protein levels of inflammatory mediators. Genetic ablation of mTOR signaling showed a dual yet contrasting effect on microglia priming: it caused an NF-κB–dependent upregulation of priming genes at the mRNA level; however, mice displayed reduced cytokine protein levels, diminished microglia activation, and milder sickness behavior. The effect on translation was dependent on reduced phosphorylation of 4EBP1, resulting in decreased binding of eIF4E to eIF4G. Similar changes were present in aged human microglia and in damage-associated microglia, indicating that upregulation of mTOR-dependent translation is an essential aspect of microglia priming in aging and neurodegeneration.

Authors

Lily Keane, Ignazio Antignano, Sean-Patrick Riechers, Raphael Zollinger, Anaelle A. Dumas, Nina Offermann, Maria E. Bernis, Jenny Russ, Frederike Graelmann, Patrick Neil McCormick, Julia Esser, Dario Tejera, Ai Nagano, Jun Wang, Claude Chelala, Yvonne Biederbick, Annett Halle, Paolo Salomoni, Michael T. Heneka, Melania Capasso

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Figure 8

A similar signature for increased translation is present in aging human microglia and damage-associated microglia.

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A similar signature for increased translation is present in aging human ...
(A) Left panel: log2 fold changes for eIF2 signaling, mTOR signaling, and regulation of eIF4 and p70K signaling pathway genes in aging mouse (x axis) and human microglia (y axis). Right panel: Comparison of differentially expressed genes within the 3 pathways. (B) Left panel: log2 fold changes for eIF2 signaling, mTOR signaling, and regulation of eIF4 and p70K signaling pathway genes in aging mouse microglia (x axis) and damage-associated microglia (y axis). Right panel: Comparison of differentially expressed genes within the 3 pathways. DE, differentially expressed.