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[210813 저널발표] Acute Trem2 reduction triggers increased microglial phagocytosis, slowing amyloid deposition in mice 홍석범 │ 2021-08-12 HIT 52791
RESEARCH ARTICLE Acute Trem2 reduction triggers increased microglial phagocytosis, slowing amyloid deposition in mice View ORCID ProfileKathleen M. Schoch, View ORCID ProfileLubov A. Ezerskiy, Michaela M. Morhaus, Riley N. Bannon, Andrew D. Sauerbeck, Mark Shabsovich, Paymaan Jafar-nejad, Frank Rigo, and View ORCID ProfileTimothy M. Miller See all authors and affiliations PNAS July 6, 2021 118 (27) e2100356118; https://doi.org/10.1073/pnas.2100356118 Edited by Hugo Bellen, Baylor College of Medicine, Houston, TX, and approved May 25, 2021 (received for review January 12, 2021) Article Figures & SI Info & Metrics PDF Significance Alzheimer’s disease (AD) remains a significant health burden within the aging population and currently lacks therapies that effectively target pathological events to halt the development or progression of AD. The gene TREM2 appears to influence abnormal protein accumulations in AD through the brain’s immune cells; however, it is not clear if and when TREM2 might be targeted in disease to limit pathology or the immune response. We used antisense oligonucleotides (ASOs) to reduce Trem2 levels in the mouse brain at specific times in disease and investigated amyloid protein accumulations, microglial responses, and genetic signatures. ASO-mediated Trem2 lowering during late-stage disease reduced amyloid pathology, which may have been triggered by an acute activation of microglia to engulf and clear amyloid deposits. Abstract Heterozygous genetic variants within the TREM2 gene show a strong association with increased Alzheimer’s disease (AD) risk. Amyloid beta–depositing mouse models haploinsufficient or null for Trem2 have identified important relationships among TREM2, microglia, and AD pathology; however, results are challenging to interpret in the context of varying microglial phenotypes and disease progression. We hypothesized that acute Trem2 reduction may alter amyloid pathology and microglial responses independent of genetic Trem2 deletion in mouse models. We developed antisense oligonucleotides (ASOs) that potently but transiently lower Trem2 messenger RNA throughout the brain and administered them to APP/PS1 mice at varying stages of plaque pathology. Late-stage ASO-mediated Trem2 knockdown significantly reduced plaque deposition and attenuated microglial association around plaque deposits when evaluated 1 mo after ASO injection. Changes in microglial gene signatures 1 wk after ASO administration and phagocytosis measured in ASO-treated cells together indicate that microglia may be activated with short-term Trem2 reduction. These results suggest a time- and/or dose-dependent role for TREM2 in mediating plaque deposition and microglial responses in which loss of TREM2 function may be beneficial for microglial activation and plaque removal in an acute context. Alzheimer’s disease amyloid antisense oligonucleotide microglia Trem2

Significance

Alzheimer’s disease (AD) remains a significant health burden within the aging population and currently lacks therapies that effectively target pathological events to halt the development or progression of AD. The gene TREM2 appears to influence abnormal protein accumulations in AD through the brain’s immune cells; however, it is not clear if and when TREM2 might be targeted in disease to limit pathology or the immune response. We used antisense oligonucleotides (ASOs) to reduce Trem2 levels in the mouse brain at specific times in disease and investigated amyloid protein accumulations, microglial responses, and genetic signatures. ASO-mediated Trem2 lowering during late-stage disease reduced amyloid pathology, which may have been triggered by an acute activation of microglia to engulf and clear amyloid deposits.

Abstract

Heterozygous genetic variants within the TREM2 gene show a strong association with increased Alzheimer’s disease (AD) risk. Amyloid beta–depositing mouse models haploinsufficient or null for Trem2 have identified important relationships among TREM2, microglia, and AD pathology; however, results are challenging to interpret in the context of varying microglial phenotypes and disease progression. We hypothesized that acute Trem2 reduction may alter amyloid pathology and microglial responses independent of genetic Trem2 deletion in mouse models. We developed antisense oligonucleotides (ASOs) that potently but transiently lower Trem2 messenger RNA throughout the brain and administered them to APP/PS1 mice at varying stages of plaque pathology. Late-stage ASO-mediated Trem2 knockdown significantly reduced plaque deposition and attenuated microglial association around plaque deposits when evaluated 1 mo after ASO injection. Changes in microglial gene signatures 1 wk after ASO administration and phagocytosis measured in ASO-treated cells together indicate that microglia may be activated with short-term Trem2 reduction. These results suggest a time- and/or dose-dependent role for TREM2 in mediating plaque deposition and microglial responses in which loss of TREM2 function may be beneficial for microglial activation and plaque removal in an acute context.

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