Microglial TLR9: Guardians of homeostatic hippocampal neurogenesis

Kyung Ok Cho; Jenny Hsieh

doi:10.5698/1535-7597-16.1.39

Microglial TLR9: Guardians of homeostatic hippocampal neurogenesis

Kyung Ok Cho, Jenny Hsieh

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

5 Scopus citations

Abstract

Pathological conditions such as epilepsy cause misregulation of adult neural stem/progenitor populations in the adult hippocampus in mice, and the resulting abnormal neurogenesis leads to impairment in learning and memory. However, how animals cope with abnormal neurogenesis remains unknown. Here we show that microglia in the mouse hippocampus attenuate convulsive seizure-mediated aberrant neurogenesis through the activation of Toll-like receptor 9 (TLR9), an innate immune sensor known to recognize microbial DNA and trigger inflammatory responses. We found that microglia sense self-DNA from degenerating neurons following seizure, and secrete tumour necrosis factor-α, resulting in attenuation of aberrant neurogenesis. Furthermore, TLR9 deficiency exacerbated seizure-induced cognitive decline and recurrent seizure severity. Our findings thus suggest the existence of bidirectional communication between the innate immune and nervous systems for the maintenance of adult brain integrity.

Original language	English (US)
Pages (from-to)	39-40
Number of pages	2
Journal	Epilepsy Currents
Volume	16
Issue number	1
DOIs	https://doi.org/10.5698/1535-7597-16.1.39
State	Published - 2016

ASJC Scopus subject areas

Clinical Neurology

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10.5698/1535-7597-16.1.39

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title = "Microglial TLR9: Guardians of homeostatic hippocampal neurogenesis",

abstract = "Pathological conditions such as epilepsy cause misregulation of adult neural stem/progenitor populations in the adult hippocampus in mice, and the resulting abnormal neurogenesis leads to impairment in learning and memory. However, how animals cope with abnormal neurogenesis remains unknown. Here we show that microglia in the mouse hippocampus attenuate convulsive seizure-mediated aberrant neurogenesis through the activation of Toll-like receptor 9 (TLR9), an innate immune sensor known to recognize microbial DNA and trigger inflammatory responses. We found that microglia sense self-DNA from degenerating neurons following seizure, and secrete tumour necrosis factor-α, resulting in attenuation of aberrant neurogenesis. Furthermore, TLR9 deficiency exacerbated seizure-induced cognitive decline and recurrent seizure severity. Our findings thus suggest the existence of bidirectional communication between the innate immune and nervous systems for the maintenance of adult brain integrity.",

author = "Cho, {Kyung Ok} and Jenny Hsieh",

note = "Funding Information: We thank M. Yoshioka, I. Kirikae, J. Kohyama, N. Uezono, K. Ito, H. Tamura, S. Komai, S. Katada, T. Imamura and M. Namihira for experimental help and valuable comments. This work was funded by the Asahi Glass Foundation and a Grant-in-Aid for Exploratory Research from the Ministry of Education, Culture, Sports, Science and Technology of Japan (no. 24650198) and Core Research for Evolutional Science and Technology (CREST) from Japan Science and Technology Agency. T.M. received funding from a Sasakawa Scientific Research Grant and a Grant-in-Aid for JSPS Fellows (no. 13J09007). Publisher Copyright: {\textcopyright} American Epilepsy Society.",

year = "2016",

doi = "10.5698/1535-7597-16.1.39",

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AU - Cho, Kyung Ok

AU - Hsieh, Jenny

N1 - Funding Information: We thank M. Yoshioka, I. Kirikae, J. Kohyama, N. Uezono, K. Ito, H. Tamura, S. Komai, S. Katada, T. Imamura and M. Namihira for experimental help and valuable comments. This work was funded by the Asahi Glass Foundation and a Grant-in-Aid for Exploratory Research from the Ministry of Education, Culture, Sports, Science and Technology of Japan (no. 24650198) and Core Research for Evolutional Science and Technology (CREST) from Japan Science and Technology Agency. T.M. received funding from a Sasakawa Scientific Research Grant and a Grant-in-Aid for JSPS Fellows (no. 13J09007). Publisher Copyright: © American Epilepsy Society.

PY - 2016

Y1 - 2016

N2 - Pathological conditions such as epilepsy cause misregulation of adult neural stem/progenitor populations in the adult hippocampus in mice, and the resulting abnormal neurogenesis leads to impairment in learning and memory. However, how animals cope with abnormal neurogenesis remains unknown. Here we show that microglia in the mouse hippocampus attenuate convulsive seizure-mediated aberrant neurogenesis through the activation of Toll-like receptor 9 (TLR9), an innate immune sensor known to recognize microbial DNA and trigger inflammatory responses. We found that microglia sense self-DNA from degenerating neurons following seizure, and secrete tumour necrosis factor-α, resulting in attenuation of aberrant neurogenesis. Furthermore, TLR9 deficiency exacerbated seizure-induced cognitive decline and recurrent seizure severity. Our findings thus suggest the existence of bidirectional communication between the innate immune and nervous systems for the maintenance of adult brain integrity.

AB - Pathological conditions such as epilepsy cause misregulation of adult neural stem/progenitor populations in the adult hippocampus in mice, and the resulting abnormal neurogenesis leads to impairment in learning and memory. However, how animals cope with abnormal neurogenesis remains unknown. Here we show that microglia in the mouse hippocampus attenuate convulsive seizure-mediated aberrant neurogenesis through the activation of Toll-like receptor 9 (TLR9), an innate immune sensor known to recognize microbial DNA and trigger inflammatory responses. We found that microglia sense self-DNA from degenerating neurons following seizure, and secrete tumour necrosis factor-α, resulting in attenuation of aberrant neurogenesis. Furthermore, TLR9 deficiency exacerbated seizure-induced cognitive decline and recurrent seizure severity. Our findings thus suggest the existence of bidirectional communication between the innate immune and nervous systems for the maintenance of adult brain integrity.

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Microglial TLR9: Guardians of homeostatic hippocampal neurogenesis

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