The TREM2-APOE Pathway Drives the Transcriptional Phenotype of Dysfunctional Microglia in Neurodegenerative Diseases

Krasemann, Susanne; Madore, Charlotte; Cialic, Ron; Baufeld, Caroline; Calcagno, Narghes; Fatimy, Rachid El; Beckers, Lien; O’Loughlin, Elaine; Yang, Xu; Fanek, Zain; Greco, David; Smith, Scott; Tweet, George; Humulock, Zachary; Zrzavy, Tobias; Conde-Sanroman, Patricia; Gacias, Mar; Weng, Zhiping; Chen, Hao; Tjon, Emily; Mazaheri, Fargol; Hartmann, Kristin; Madi, Asaf; Ulrich, Jason D.; Glatzel, Markus; Worthmann, Anna; Heeren, Joerg; Budnik, Bogdan; Lemere, Cynthia A.; Ikezu, Tsuneya; Heppner, Frank L.; Litvak, Vladimir; Holtzman, David M.; Lassmann, Hans; Weiner, Howard L.; Ochando, Jordi; Haass, Christian; Butovsky, Oleg

doi:10.1016/j.immuni.2017.08.008

Cited by 1,763 publications

(2,483 citation statements)

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“…The purinergic receptor P2RY12, sensing ADP release from damaged tissue and being necessary for rapid migration of cells to the site of tissue damage , is one of the key markers for the homeostatic phenotype of microglia. In line with this is the nearly complete loss of P2RY12 expression on microglia in active experimental and human inflammatory and neurodegenerative lesions . However, it has been shown that P2RY12 is lost in a major subpopulation of microglia in the normal human brain and it was a surprise that systemic immune activation in sepsis did not lead to a further downregulation of its expression in microglia.…”

Section: Discussionmentioning

confidence: 86%

“…The presence of TMEM119 reactivity in P2RY12 negative microglia suggests that loss of this purinergic receptor is not due to the recruitment of circulating myeloid cells, which differentiate into a microglia‐like morphological phenotype. We have shown previously that the loss of P2RY12 reactivity correlates with the extent of neurodegeneration in human cortex of controls and Alzheimer's disease patients . Thus, neurodegeneration instead of inflammation may be the key trigger for the downregulation of P2RY12 expression on CNS microglia.…”

Section: Discussionmentioning

confidence: 89%

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Pro‐inflammatory activation of microglia in the brain of patients with sepsis

Zrzavy

Höftberger

Berger

et al. 2018

Neuropathology Appl Neurobio

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Aims Experimental data suggest that systemic immune activation may create a pro‐inflammatory environment with microglia activation in the central nervous system in the absence of overt inflammation, which in turn may be deleterious in conditions of neurodegenerative disease. The extent to which this is relevant for the human brain is unknown. The central aim of this study is to provide an in‐depth characterization of the microglia and macrophage response to systemic inflammation. Methods We used recently described markers to characterize the origin and functional states of microglia/macrophages in white and grey matter in patients who died under septic conditions and compared it to those patients without systemic inflammation. Results We found pro‐inflammatory microglia activation in septic patients in the white matter, with very little activation in the grey matter. Using a specific marker for resident microglia ( TMEM 119), we found that parenchyma microglia were activated and that there was additional recruitment of perivascular macrophages. Pro‐inflammatory microglia activation occurred in the presence of homeostatic microglia cells. In contrast to inflammatory or ischaemic diseases of the brain, the anti‐inflammatory microglia markers CD 163 or CD 206 were not expressed in acute sepsis. Furthermore, we found pronounced upregulation of inducible nitric oxide synthase not only in microglia, but also in astrocytes and endothelial cells. Conclusion Our results demonstrate the pronounced effects of systemic inflammation on the human brain and have important implications for the selection of control populations for studies on microglia activation in human brain disease.

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Section: Discussionmentioning

confidence: 86%

Section: Discussionmentioning

confidence: 89%

Pro‐inflammatory activation of microglia in the brain of patients with sepsis

Zrzavy

Höftberger

Berger

et al. 2018

Neuropathology Appl Neurobio

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show abstract

“…Such kinetics of microgliosis are in sharp contrast to mouse models of chronic or severe neurodegeneration in which the resolution of microgliosis is not observed [21, 23, 30]. Notably, bulk RNAseq analysis revealed no change in gene regulation between the lesion and contralateral FN in at 60 d after FNX [43].…”

Section: Resultsmentioning

confidence: 99%

Unique microglia recovery population revealed by single-cell RNAseq following neurodegeneration

Tay

Sagar

Dautzenberg

et al. 2018

acta neuropathol commun

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Microglia are brain immune cells that constantly survey their environment to maintain homeostasis. Enhanced microglial reactivity and proliferation are typical hallmarks of neurodegenerative diseases. Whether specific disease-linked microglial subsets exist during the entire course of neurodegeneration, including the recovery phase, is currently unclear. Taking a single-cell RNA-sequencing approach in a susceptibility gene-free model of nerve injury, we identified a microglial subpopulation that upon acute neurodegeneration shares a conserved gene regulatory profile compared to previously reported chronic and destructive neurodegeneration transgenic mouse models. Our data also revealed rapid shifts in gene regulation that defined microglial subsets at peak and resolution of neurodegeneration. Finally, our discovery of a unique transient microglial subpopulation at the onset of recovery may provide novel targets for modulating microglia-mediated restoration of brain health.Electronic supplementary materialThe online version of this article (10.1186/s40478-018-0584-3) contains supplementary material, which is available to authorized users.

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“…TREM2 expression by microglia is known to modulate the inflammatory response by suppression of microglia-mediated cytokine production and secretion, and by regulation of phagocytic pathways that clear neuronal debris (Hsieh et al 2009;Krasemann et al 2017). A recent study by Bogie et al identified a scavenger receptor, collectin placenta 1 (CL-P1), as a novel receptor in the uptake of myelin by microglia ( phagocytes).…”

Section: Microglial Functions Reaction To Cell or Tissue Damage And Pmentioning

confidence: 99%