Tau Pathology Drives Dementia Risk-Associated Gene Networks toward Chronic Inflammatory States and Immunosuppression

Jessica E. Rexach; Damon Polioudakis; Anna Yin; Vivek Swarup; Timothy S. Chang; Tam Nguyen; Arjun Sarkar; Lawrence Chen; Jerry Huang; Li Chun Lin; William Seeley; John Q. Trojanowski; Dheeraj Malhotra; Daniel H. Geschwind

doi:10.1016/j.celrep.2020.108398

Tau Pathology Drives Dementia Risk-Associated Gene Networks toward Chronic Inflammatory States and Immunosuppression

Jessica E. Rexach
, Damon Polioudakis
, Anna Yin
, Vivek Swarup
, Timothy S. Chang
, Tam Nguyen
, Arjun Sarkar
, Lawrence Chen
, Jerry Huang
, Li Chun Lin
, William Seeley
, John Q. Trojanowski
, Dheeraj Malhotra
, Daniel H. Geschwind

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

73 Scopus citations

Abstract

To understand how neural-immune-associated genes and pathways contribute to neurodegenerative disease pathophysiology, we performed a systematic functional genomic analysis in purified microglia and bulk tissue from mouse and human AD, FTD, and PSP. We uncover a complex temporal trajectory of microglial-immune pathways involving the type 1 interferon response associated with tau pathology in the early stages, followed by later signatures of partial immune suppression and, subsequently, the type 2 interferon response. We find that genetic risk for dementias shows disease-specific patterns of pathway enrichment. We identify drivers of two gene co-expression modules conserved from mouse to human, representing competing arms of microglial-immune activation (NAct) and suppression (NSupp) in neurodegeneration. We validate our findings by using chemogenetics, experimental perturbation data, and single-cell sequencing in post-mortem brains. Our results refine the understanding of stage- and disease-specific microglial responses, implicate microglial viral defense pathways in dementia pathophysiology, and highlight therapeutic windows.

Original language	English
Article number	108398
Journal	Cell Reports
Volume	33
Issue number	7
DOIs	https://doi.org/10.1016/j.celrep.2020.108398
State	Published - 17 Nov 2020
Externally published	Yes

Keywords

chemical genomics
frontotemporal dementia
gene network
inflammasome
interferon
neurodegeneration
progressive supranuclear palsy
systems biology
transcriptomics

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10.1016/j.celrep.2020.108398

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Rexach, J. E., Polioudakis, D., Yin, A., Swarup, V., Chang, T. S., Nguyen, T., Sarkar, A., Chen, L., Huang, J., Lin, L. C., Seeley, W., Trojanowski, J. Q., Malhotra, D., & Geschwind, D. H. (2020). Tau Pathology Drives Dementia Risk-Associated Gene Networks toward Chronic Inflammatory States and Immunosuppression. Cell Reports, 33(7), Article 108398. https://doi.org/10.1016/j.celrep.2020.108398

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title = "Tau Pathology Drives Dementia Risk-Associated Gene Networks toward Chronic Inflammatory States and Immunosuppression",

abstract = "To understand how neural-immune-associated genes and pathways contribute to neurodegenerative disease pathophysiology, we performed a systematic functional genomic analysis in purified microglia and bulk tissue from mouse and human AD, FTD, and PSP. We uncover a complex temporal trajectory of microglial-immune pathways involving the type 1 interferon response associated with tau pathology in the early stages, followed by later signatures of partial immune suppression and, subsequently, the type 2 interferon response. We find that genetic risk for dementias shows disease-specific patterns of pathway enrichment. We identify drivers of two gene co-expression modules conserved from mouse to human, representing competing arms of microglial-immune activation (NAct) and suppression (NSupp) in neurodegeneration. We validate our findings by using chemogenetics, experimental perturbation data, and single-cell sequencing in post-mortem brains. Our results refine the understanding of stage- and disease-specific microglial responses, implicate microglial viral defense pathways in dementia pathophysiology, and highlight therapeutic windows.",

keywords = "chemical genomics, frontotemporal dementia, gene network, inflammasome, interferon, neurodegeneration, progressive supranuclear palsy, systems biology, transcriptomics",

author = "Rexach, \{Jessica E.\} and Damon Polioudakis and Anna Yin and Vivek Swarup and Chang, \{Timothy S.\} and Tam Nguyen and Arjun Sarkar and Lawrence Chen and Jerry Huang and Lin, \{Li Chun\} and William Seeley and Trojanowski, \{John Q.\} and Dheeraj Malhotra and Geschwind, \{Daniel H.\}",

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year = "2020",

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doi = "10.1016/j.celrep.2020.108398",

language = "English",

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Rexach, JE, Polioudakis, D, Yin, A, Swarup, V, Chang, TS, Nguyen, T, Sarkar, A, Chen, L, Huang, J, Lin, LC, Seeley, W, Trojanowski, JQ, Malhotra, D & Geschwind, DH 2020, 'Tau Pathology Drives Dementia Risk-Associated Gene Networks toward Chronic Inflammatory States and Immunosuppression', Cell Reports, vol. 33, no. 7, 108398. https://doi.org/10.1016/j.celrep.2020.108398

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T1 - Tau Pathology Drives Dementia Risk-Associated Gene Networks toward Chronic Inflammatory States and Immunosuppression

AU - Rexach, Jessica E.

AU - Polioudakis, Damon

AU - Yin, Anna

AU - Swarup, Vivek

AU - Chang, Timothy S.

AU - Nguyen, Tam

AU - Sarkar, Arjun

AU - Chen, Lawrence

AU - Huang, Jerry

AU - Lin, Li Chun

AU - Seeley, William

AU - Trojanowski, John Q.

AU - Malhotra, Dheeraj

AU - Geschwind, Daniel H.

PY - 2020/11/17

Y1 - 2020/11/17

N2 - To understand how neural-immune-associated genes and pathways contribute to neurodegenerative disease pathophysiology, we performed a systematic functional genomic analysis in purified microglia and bulk tissue from mouse and human AD, FTD, and PSP. We uncover a complex temporal trajectory of microglial-immune pathways involving the type 1 interferon response associated with tau pathology in the early stages, followed by later signatures of partial immune suppression and, subsequently, the type 2 interferon response. We find that genetic risk for dementias shows disease-specific patterns of pathway enrichment. We identify drivers of two gene co-expression modules conserved from mouse to human, representing competing arms of microglial-immune activation (NAct) and suppression (NSupp) in neurodegeneration. We validate our findings by using chemogenetics, experimental perturbation data, and single-cell sequencing in post-mortem brains. Our results refine the understanding of stage- and disease-specific microglial responses, implicate microglial viral defense pathways in dementia pathophysiology, and highlight therapeutic windows.

AB - To understand how neural-immune-associated genes and pathways contribute to neurodegenerative disease pathophysiology, we performed a systematic functional genomic analysis in purified microglia and bulk tissue from mouse and human AD, FTD, and PSP. We uncover a complex temporal trajectory of microglial-immune pathways involving the type 1 interferon response associated with tau pathology in the early stages, followed by later signatures of partial immune suppression and, subsequently, the type 2 interferon response. We find that genetic risk for dementias shows disease-specific patterns of pathway enrichment. We identify drivers of two gene co-expression modules conserved from mouse to human, representing competing arms of microglial-immune activation (NAct) and suppression (NSupp) in neurodegeneration. We validate our findings by using chemogenetics, experimental perturbation data, and single-cell sequencing in post-mortem brains. Our results refine the understanding of stage- and disease-specific microglial responses, implicate microglial viral defense pathways in dementia pathophysiology, and highlight therapeutic windows.

KW - chemical genomics

KW - frontotemporal dementia

KW - gene network

KW - inflammasome

KW - interferon

KW - neurodegeneration

KW - progressive supranuclear palsy

KW - systems biology

KW - transcriptomics

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DO - 10.1016/j.celrep.2020.108398

M3 - Article

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AN - SCOPUS:85096163396

SN - 2211-1247

VL - 33

JO - Cell Reports

JF - Cell Reports

IS - 7

M1 - 108398

ER -

Tau Pathology Drives Dementia Risk-Associated Gene Networks toward Chronic Inflammatory States and Immunosuppression

Abstract

Keywords

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