AD-linked R47H-<i>TREM2</i>mutation induces disease-enhancing microglial states via AKT hyperactivation

Faten A. Sayed; Lay Kodama; Li Fan; Gillian Carling; Joe C. Udeochu; David Le; Qingyun Li; Lu Zhou; Man Ying Wong; Rose Horowitz; Pearly Ye; Hansruedi Mathys; Minghui Wang; Xiang Niu; Linas Mažutis; Xueqiao Jiang; Xueting Wang; Fuying Gao; Matthew Brendel; Maria A. Telpoukhovskaia; Tara E. Tracy; Georgia Frost; Yungui Zhou; Yaqiao Li; Yue Qiu; Zuolin Cheng; Guoqiang Yu; John Hardy; Giovanni Coppola; Fei Wang; Michael DeTure; Bin Zhang; Lei Xie; John Q. Trajnowski; Virginia M.‐Y. Lee; Shiaoching Gong; Subhash C. Sinha; Dennis W. Dickson; Wenjie Luo; Li Gan

doi:10.1126/scitranslmed.abe3947

AD-linked R47H-<i>TREM2</i>mutation induces disease-enhancing microglial states via AKT hyperactivation

Faten A. Sayed(Gladstone Institutes), Lay Kodama(Gladstone Institutes), Li Fan(Cornell University), Gillian Carling(Cornell University), Joe C. Udeochu(Cornell University), David Le(Gladstone Institutes), Qingyun Li(Washington University in St. Louis), Lu Zhou(Washington University in St. Louis), Man Ying Wong(Cornell University), Rose Horowitz(Cornell University), Pearly Ye(Cornell University), Hansruedi Mathys(Massachusetts Institute of Technology), Minghui Wang(Icahn School of Medicine at Mount Sinai), Xiang Niu(Cornell University), Linas Mažutis(Memorial Sloan Kettering Cancer Center), Xueqiao Jiang(Massachusetts Institute of Technology), Xueting Wang(Cornell University), Fuying Gao(University of California, Los Angeles), Matthew Brendel(Cornell University), Maria A. Telpoukhovskaia(Gladstone Institutes), Tara E. Tracy(Gladstone Institutes), Georgia Frost(Cornell University), Yungui Zhou(Gladstone Institutes), Yaqiao Li(Gladstone Institutes), Yue Qiu(The Graduate Center, CUNY), Zuolin Cheng(Virginia Tech), Guoqiang Yu(Virginia Tech), John Hardy(National Hospital for Neurology and Neurosurgery), Giovanni Coppola(University of California, Los Angeles), Fei Wang(Cornell University), Michael DeTure(WinnMed), Bin Zhang(Icahn School of Medicine at Mount Sinai), Lei Xie(Cornell University), John Q. Trajnowski(Institute for Neurodegenerative Disorders), Virginia M.‐Y. Lee(Institute for Neurodegenerative Disorders), Shiaoching Gong(Cornell University), Subhash C. Sinha(Cornell University), Dennis W. Dickson(WinnMed), Wenjie Luo(Cornell University), Li Gan(Gladstone Institutes)

Science Translational Medicine

December 1, 2021

10.1126/scitranslmed.abe3947

Cited by 152Open Access

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Abstract

with the R47H mutation or CV and found that R47H induced and exacerbated TAU-mediated spatial memory deficits in female mice. Single-cell transcriptomic analysis of microglia from these mice also revealed transcriptomic changes induced by R47H that had substantial overlaps with R47H microglia in human AD brains, including robust increases in proinflammatory cytokines, activation of AKT signaling, and elevation of a subset of DAM signatures. Pharmacological AKT inhibition with MK-2206 largely reversed the enhanced inflammatory signatures in primary R47H microglia treated with TAU fibrils. In R47H heterozygous tauopathy mice, MK-2206 treatment abolished a tauopathy-dependent microglial subcluster and rescued tauopathy-induced synapse loss. By uncovering disease-enhancing mechanisms of the R47H mutation conserved in human and mouse, our study supports inhibitors of AKT signaling as a microglial modulating strategy to treat AD.

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