Tau activation of microglial cGAS–IFN reduces MEF2C-mediated cognitive resilience

Joe C. Udeochu; Sadaf Amin; Yige Huang; Li Fan; Eileen Ruth S. Torres; Gillian K. Carling; Bangyan Liu; Hugo McGurran; Guillermo Coronas-Samano; Grant Kauwe; Gergey Alzaem Mousa; Man Ying Wong; Pearly Ye; Ravi Kumar Nagiri; Iris Lo; Julia Holtzman; Carlo Corona; Allan Yarahmady; Michael T. Gill; Ravikiran M. Raju; Sue Ann Mok; Shiaoching Gong; Wenjie Luo; Mingrui Zhao; Tara E. Tracy; Rajiv R. Ratan; Li Huei Tsai; Subhash C. Sinha; Li Gan

doi:10.1038/s41593-023-01315-6

Tau activation of microglial cGAS–IFN reduces MEF2C-mediated cognitive resilience

Joe C. Udeochu
, Sadaf Amin
, Yige Huang
, Li Fan
, Eileen Ruth S. Torres
, Gillian K. Carling
, Bangyan Liu
, Hugo McGurran
, Guillermo Coronas-Samano
, Grant Kauwe
, Gergey Alzaem Mousa
, Man Ying Wong
, Pearly Ye
, Ravi Kumar Nagiri
, Iris Lo
, Julia Holtzman
, Carlo Corona
, Allan Yarahmady
, Michael T. Gill
, Ravikiran M. Raju

Sue Ann Mok, Shiaoching Gong, Wenjie Luo, Mingrui Zhao, Tara E. Tracy, Rajiv R. Ratan, Li Huei Tsai, Subhash C. Sinha, Li Gan

Division of Laboratory and Genomic Medicine

Research output: Contribution to journal › Article › peer-review

181 Scopus citations

Abstract

Pathological hallmarks of Alzheimer’s disease (AD) precede clinical symptoms by years, indicating a period of cognitive resilience before the onset of dementia. Here, we report that activation of cyclic GMP–AMP synthase (cGAS) diminishes cognitive resilience by decreasing the neuronal transcriptional network of myocyte enhancer factor 2c (MEF2C) through type I interferon (IFN-I) signaling. Pathogenic tau activates cGAS and IFN-I responses in microglia, in part mediated by cytosolic leakage of mitochondrial DNA. Genetic ablation of Cgas in mice with tauopathy diminished the microglial IFN-I response, preserved synapse integrity and plasticity and protected against cognitive impairment without affecting the pathogenic tau load. cGAS ablation increased, while activation of IFN-I decreased, the neuronal MEF2C expression network linked to cognitive resilience in AD. Pharmacological inhibition of cGAS in mice with tauopathy enhanced the neuronal MEF2C transcriptional network and restored synaptic integrity, plasticity and memory, supporting the therapeutic potential of targeting the cGAS–IFN–MEF2C axis to improve resilience against AD-related pathological insults.

Original language	English
Pages (from-to)	737-750
Number of pages	14
Journal	Nature neuroscience
Volume	26
Issue number	5
DOIs	https://doi.org/10.1038/s41593-023-01315-6
State	Published - May 2023

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Udeochu, J. C., Amin, S., Huang, Y., Fan, L., Torres, E. R. S., Carling, G. K., Liu, B., McGurran, H., Coronas-Samano, G., Kauwe, G., Mousa, G. A., Wong, M. Y., Ye, P., Nagiri, R. K., Lo, I., Holtzman, J., Corona, C., Yarahmady, A., Gill, M. T., ... Gan, L. (2023). Tau activation of microglial cGAS–IFN reduces MEF2C-mediated cognitive resilience. Nature neuroscience, 26(5), 737-750. https://doi.org/10.1038/s41593-023-01315-6

@article{04fe095947914bf7aa7ddff8d10840e8,

title = "Tau activation of microglial cGAS–IFN reduces MEF2C-mediated cognitive resilience",

abstract = "Pathological hallmarks of Alzheimer{\textquoteright}s disease (AD) precede clinical symptoms by years, indicating a period of cognitive resilience before the onset of dementia. Here, we report that activation of cyclic GMP–AMP synthase (cGAS) diminishes cognitive resilience by decreasing the neuronal transcriptional network of myocyte enhancer factor 2c (MEF2C) through type I interferon (IFN-I) signaling. Pathogenic tau activates cGAS and IFN-I responses in microglia, in part mediated by cytosolic leakage of mitochondrial DNA. Genetic ablation of Cgas in mice with tauopathy diminished the microglial IFN-I response, preserved synapse integrity and plasticity and protected against cognitive impairment without affecting the pathogenic tau load. cGAS ablation increased, while activation of IFN-I decreased, the neuronal MEF2C expression network linked to cognitive resilience in AD. Pharmacological inhibition of cGAS in mice with tauopathy enhanced the neuronal MEF2C transcriptional network and restored synaptic integrity, plasticity and memory, supporting the therapeutic potential of targeting the cGAS–IFN–MEF2C axis to improve resilience against AD-related pathological insults.",

author = "Udeochu, \{Joe C.\} and Sadaf Amin and Yige Huang and Li Fan and Torres, \{Eileen Ruth S.\} and Carling, \{Gillian K.\} and Bangyan Liu and Hugo McGurran and Guillermo Coronas-Samano and Grant Kauwe and Mousa, \{Gergey Alzaem\} and Wong, \{Man Ying\} and Pearly Ye and Nagiri, \{Ravi Kumar\} and Iris Lo and Julia Holtzman and Carlo Corona and Allan Yarahmady and Gill, \{Michael T.\} and Raju, \{Ravikiran M.\} and Mok, \{Sue Ann\} and Shiaoching Gong and Wenjie Luo and Mingrui Zhao and Tracy, \{Tara E.\} and Ratan, \{Rajiv R.\} and Tsai, \{Li Huei\} and Sinha, \{Subhash C.\} and Li Gan",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = may,

doi = "10.1038/s41593-023-01315-6",

language = "English",

volume = "26",

pages = "737--750",

journal = "Nature neuroscience",

issn = "1097-6256",

number = "5",

}

Udeochu, JC, Amin, S, Huang, Y, Fan, L, Torres, ERS, Carling, GK, Liu, B, McGurran, H, Coronas-Samano, G, Kauwe, G, Mousa, GA, Wong, MY, Ye, P, Nagiri, RK, Lo, I, Holtzman, J, Corona, C, Yarahmady, A, Gill, MT, Raju, RM, Mok, SA, Gong, S, Luo, W, Zhao, M, Tracy, TE, Ratan, RR, Tsai, LH, Sinha, SC & Gan, L 2023, 'Tau activation of microglial cGAS–IFN reduces MEF2C-mediated cognitive resilience', Nature neuroscience, vol. 26, no. 5, pp. 737-750. https://doi.org/10.1038/s41593-023-01315-6

TY - JOUR

T1 - Tau activation of microglial cGAS–IFN reduces MEF2C-mediated cognitive resilience

AU - Udeochu, Joe C.

AU - Amin, Sadaf

AU - Huang, Yige

AU - Fan, Li

AU - Torres, Eileen Ruth S.

AU - Carling, Gillian K.

AU - Liu, Bangyan

AU - McGurran, Hugo

AU - Coronas-Samano, Guillermo

AU - Kauwe, Grant

AU - Mousa, Gergey Alzaem

AU - Wong, Man Ying

AU - Ye, Pearly

AU - Nagiri, Ravi Kumar

AU - Lo, Iris

AU - Holtzman, Julia

AU - Corona, Carlo

AU - Yarahmady, Allan

AU - Gill, Michael T.

AU - Raju, Ravikiran M.

AU - Mok, Sue Ann

AU - Gong, Shiaoching

AU - Luo, Wenjie

AU - Zhao, Mingrui

AU - Tracy, Tara E.

AU - Ratan, Rajiv R.

AU - Tsai, Li Huei

AU - Sinha, Subhash C.

AU - Gan, Li

PY - 2023/5

Y1 - 2023/5

N2 - Pathological hallmarks of Alzheimer’s disease (AD) precede clinical symptoms by years, indicating a period of cognitive resilience before the onset of dementia. Here, we report that activation of cyclic GMP–AMP synthase (cGAS) diminishes cognitive resilience by decreasing the neuronal transcriptional network of myocyte enhancer factor 2c (MEF2C) through type I interferon (IFN-I) signaling. Pathogenic tau activates cGAS and IFN-I responses in microglia, in part mediated by cytosolic leakage of mitochondrial DNA. Genetic ablation of Cgas in mice with tauopathy diminished the microglial IFN-I response, preserved synapse integrity and plasticity and protected against cognitive impairment without affecting the pathogenic tau load. cGAS ablation increased, while activation of IFN-I decreased, the neuronal MEF2C expression network linked to cognitive resilience in AD. Pharmacological inhibition of cGAS in mice with tauopathy enhanced the neuronal MEF2C transcriptional network and restored synaptic integrity, plasticity and memory, supporting the therapeutic potential of targeting the cGAS–IFN–MEF2C axis to improve resilience against AD-related pathological insults.

AB - Pathological hallmarks of Alzheimer’s disease (AD) precede clinical symptoms by years, indicating a period of cognitive resilience before the onset of dementia. Here, we report that activation of cyclic GMP–AMP synthase (cGAS) diminishes cognitive resilience by decreasing the neuronal transcriptional network of myocyte enhancer factor 2c (MEF2C) through type I interferon (IFN-I) signaling. Pathogenic tau activates cGAS and IFN-I responses in microglia, in part mediated by cytosolic leakage of mitochondrial DNA. Genetic ablation of Cgas in mice with tauopathy diminished the microglial IFN-I response, preserved synapse integrity and plasticity and protected against cognitive impairment without affecting the pathogenic tau load. cGAS ablation increased, while activation of IFN-I decreased, the neuronal MEF2C expression network linked to cognitive resilience in AD. Pharmacological inhibition of cGAS in mice with tauopathy enhanced the neuronal MEF2C transcriptional network and restored synaptic integrity, plasticity and memory, supporting the therapeutic potential of targeting the cGAS–IFN–MEF2C axis to improve resilience against AD-related pathological insults.

UR - https://www.scopus.com/pages/publications/85153333680

U2 - 10.1038/s41593-023-01315-6

DO - 10.1038/s41593-023-01315-6

M3 - Article

C2 - 37095396

AN - SCOPUS:85153333680

SN - 1097-6256

VL - 26

SP - 737

EP - 750

JO - Nature neuroscience

JF - Nature neuroscience

IS - 5

ER -

Tau activation of microglial cGAS–IFN reduces MEF2C-mediated cognitive resilience

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