The FTD-like syndrome causing TREM2 T66M mutation impairs microglia function, brain perfusion, and glucose metabolism

Gernot Kleinberger, Matthias Brendel, Eva Mracsko, Benedikt Wefers, Linda Groeneweg, Xianyuan Xiang, Carola Focke, Maximilian Deußing, Marc Suárez-Calvet, Fargol Mazaheri, Samira Parhizkar, Nadine Pettkus, Wolfgang Wurst, Regina Feederle, Peter Bartenstein, Thomas Mueggler, Thomas Arzberger, Irene Knuesel, Axel Rominger, Christian Haass

Research output: Contribution to journalArticlepeer-review

140 Scopus citations


Genetic variants in the triggering receptor expressed on myeloid cells 2 (TREM2) increase the risk for several neurodegenerative diseases including Alzheimer's disease and frontotemporal dementia (FTD). Homozygous TREM2 missense mutations, such as p.T66M, lead to the FTD-like syndrome, but how they cause pathology is unknown. Using CRISPR/Cas9 genome editing, we generated a knock-in mouse model for the disease-associated Trem2 p.T66M mutation. Consistent with a loss-of-function mutation, we observe an intracellular accumulation of immature mutant Trem2 and reduced generation of soluble Trem2 similar to patients with the homozygous p.T66M mutation. Trem2 p.T66M knock-in mice show delayed resolution of inflammation upon in vivo lipopolysaccharide stimulation and cultured macrophages display significantly reduced phagocytic activity. Immunohistochemistry together with in vivo TSPO small animal positron emission tomography (μPET) demonstrates an age-dependent reduction in microglial activity. Surprisingly, perfusion magnetic resonance imaging and FDG-μPET imaging reveal a significant reduction in cerebral blood flow and brain glucose metabolism. Thus, we demonstrate that a TREM2 loss-of-function mutation causes brain-wide metabolic alterations pointing toward a possible function of microglia in regulating brain glucose metabolism.

Original languageEnglish
Pages (from-to)1837-1853
Number of pages17
JournalEMBO Journal
Issue number13
StatePublished - 3 Jul 2017


  • TREM2
  • frontotemporal dementia
  • neurodegeneration
  • neuroinflammation
  • regulated intramembrane proteolysis


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