TREM2 sustains microglial expansion during aging and response to demyelination
Pietro Luigi Poliani, … , Susan Gilfillan, Marco Colonna
Pietro Luigi Poliani, … , Susan Gilfillan, Marco Colonna
Published April 20, 2015
Citation Information: J Clin Invest. 2015;125(5):2161-2170. https://doi.org/10.1172/JCI77983.
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Research Article Neuroscience

TREM2 sustains microglial expansion during aging and response to demyelination

Abstract

Microglia contribute to development, homeostasis, and immunity of the CNS. Like other tissue-resident macrophage populations, microglia express the surface receptor triggering receptor expressed on myeloid cells 2 (TREM2), which binds polyanions, such as dextran sulphate and bacterial LPS, and activates downstream signaling cascades through the adapter DAP12. Individuals homozygous for inactivating mutations in TREM2 exhibit demyelination of subcortical white matter and a lethal early onset dementia known as Nasu-Hakola disease. How TREM2 deficiency mediates demyelination and disease is unknown. Here, we addressed the basis for this genetic association using Trem2–/– mice. In WT mice, microglia expanded in the corpus callosum with age, whereas aged Trem2–/– mice had fewer microglia with an abnormal morphology. In the cuprizone model of oligodendrocyte degeneration and demyelination, Trem2–/– microglia failed to amplify transcripts indicative of activation, phagocytosis, and lipid catabolism in response to myelin damage. As a result, Trem2–/– mice exhibited impaired myelin debris clearance, axonal dystrophy, oligodendrocyte reduction, and persistent demyelination after prolonged cuprizone treatment. Moreover, myelin-associated lipids robustly triggered TREM2 signaling in vitro, suggesting that TREM2 may directly sense lipid components exposed during myelin damage. We conclude that TREM2 is required for promoting microglial expansion during aging and microglial response to insults of the white matter.

Authors

Pietro Luigi Poliani, Yaming Wang, Elena Fontana, Michelle L. Robinette, Yoshinori Yamanishi, Susan Gilfillan, Marco Colonna

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Figure 2

Trem2–/– mice show impaired remyelination after cuprizone treatment.

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Trem2–/– mice show impaired remyelination after cuprizone treatment. Mi...
Mice were fed regular chow (control) or 0.2% cuprizone diet for 4 weeks, 12 weeks, or 12 weeks followed by 2 weeks of regular chow (recovery). (AC) Myelination was assessed by TEM. (A) Strategy used for corpus callosum sectioning is indicated in red. (B) Representative images of corpus callosum in different treatments. Deposition of myelin debris (red arrowheads) and axonal spheroids (white arrowheads) is indicated in Trem2–/– mice. (C) Demyelination and remyelination after cuprizone feeding is measured by changes in G ratios. (DG) Brain sections were stained for MBP and Olig-2 to detect myelin and ODCs, respectively. Representative images for MBP (D) and Olig-2 staining (F). Percentage reduction of MBP reactivity in the total white matter area (E) and frequencies of Olig-2+ cells (G). *P ≤ 0.05; ***P ≤ 0.001; ****P ≤ 0.0001, 2-way ANOVA. Original magnification, ×6000 (B); ×4 (D); ×20 (F). Scale bars: 5 μm (B); 500 μm (D); 100 μm (F). Data represent 2 to 3 mice (B and C) and 3 to 8 mice (DG) per group. An average of 10 HPF per mouse were evaluated. Error bars represent mean ± SEM.