Microglial depletion aggravates the severity of acute and chronic seizures in mice

Wenning Wu; Yujiao Li; Yujia Wei; Dale B. Bosco; Manling Xie; Ming Gao Zhao; Jason R. Richardson; Long Jun Wu

doi:10.1016/j.bbi.2020.06.028

Microglial depletion aggravates the severity of acute and chronic seizures in mice

Wenning Wu, Yujiao Li, Yujia Wei, Dale B. Bosco, Manling Xie, Ming Gao Zhao, Jason R. Richardson, Long Jun Wu

Neurology

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

12 Scopus citations

Abstract

Microglia are the resident immune cells of the center nervous system and participate in various neurological diseases. Here we determined the function of microglia in epileptogenesis using microglial ablation approaches. Three different microglia-specific genetic tools were used, CX3CR1^CreER/+:R26^iDTA/+, CX3CR1^CreER/+:R26^iDTR/+, and CX3CR1^CreER/+:Csf1r^Flox/Flox mice. We found that microglial depletion led to worse kainic acid (KA)-induced status epilepticus, higher mortality rate, and increased neuronal degeneration in the hippocampus. In KA-induced chronic spontaneous recurrent seizures, microglial depletion increased seizure frequency, interictal spiking, and seizure duration. Therefore, microglial depletion aggravates the severity of KA-induced acute and chronic seizures. Interestingly, microglial repopulation reversed the effects of depletion upon KA-induced status epilepticus. Our results demonstrate a beneficial role of microglia in suppressing both acute and chronic seizures, suggesting that microglia are a potential therapeutic target for the management of epilepsy.

Original language	English (US)
Pages (from-to)	245-255
Number of pages	11
Journal	Brain, Behavior, and Immunity
Volume	89
DOIs	https://doi.org/10.1016/j.bbi.2020.06.028
State	Published - Oct 2020

Keywords

Epilepsy
Kainic acid
Microglia
Microglia depletion
Microglia repopulation
Neuronal degeneration
Spontaneous recurrent seizures
Status epilepticus

ASJC Scopus subject areas

Immunology
Endocrine and Autonomic Systems
Behavioral Neuroscience

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10.1016/j.bbi.2020.06.028

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title = "Microglial depletion aggravates the severity of acute and chronic seizures in mice",

abstract = "Microglia are the resident immune cells of the center nervous system and participate in various neurological diseases. Here we determined the function of microglia in epileptogenesis using microglial ablation approaches. Three different microglia-specific genetic tools were used, CX3CR1CreER/+:R26iDTA/+, CX3CR1CreER/+:R26iDTR/+, and CX3CR1CreER/+:Csf1rFlox/Flox mice. We found that microglial depletion led to worse kainic acid (KA)-induced status epilepticus, higher mortality rate, and increased neuronal degeneration in the hippocampus. In KA-induced chronic spontaneous recurrent seizures, microglial depletion increased seizure frequency, interictal spiking, and seizure duration. Therefore, microglial depletion aggravates the severity of KA-induced acute and chronic seizures. Interestingly, microglial repopulation reversed the effects of depletion upon KA-induced status epilepticus. Our results demonstrate a beneficial role of microglia in suppressing both acute and chronic seizures, suggesting that microglia are a potential therapeutic target for the management of epilepsy.",

keywords = "Epilepsy, Kainic acid, Microglia, Microglia depletion, Microglia repopulation, Neuronal degeneration, Spontaneous recurrent seizures, Status epilepticus",

author = "Wenning Wu and Yujiao Li and Yujia Wei and Bosco, {Dale B.} and Manling Xie and Zhao, {Ming Gao} and Richardson, {Jason R.} and Wu, {Long Jun}",

note = "Publisher Copyright: {\textcopyright} 2020 The Authors",

year = "2020",

month = oct,

doi = "10.1016/j.bbi.2020.06.028",

language = "English (US)",

volume = "89",

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T1 - Microglial depletion aggravates the severity of acute and chronic seizures in mice

AU - Wu, Wenning

AU - Li, Yujiao

AU - Wei, Yujia

AU - Bosco, Dale B.

AU - Xie, Manling

AU - Zhao, Ming Gao

AU - Richardson, Jason R.

AU - Wu, Long Jun

PY - 2020/10

Y1 - 2020/10

N2 - Microglia are the resident immune cells of the center nervous system and participate in various neurological diseases. Here we determined the function of microglia in epileptogenesis using microglial ablation approaches. Three different microglia-specific genetic tools were used, CX3CR1CreER/+:R26iDTA/+, CX3CR1CreER/+:R26iDTR/+, and CX3CR1CreER/+:Csf1rFlox/Flox mice. We found that microglial depletion led to worse kainic acid (KA)-induced status epilepticus, higher mortality rate, and increased neuronal degeneration in the hippocampus. In KA-induced chronic spontaneous recurrent seizures, microglial depletion increased seizure frequency, interictal spiking, and seizure duration. Therefore, microglial depletion aggravates the severity of KA-induced acute and chronic seizures. Interestingly, microglial repopulation reversed the effects of depletion upon KA-induced status epilepticus. Our results demonstrate a beneficial role of microglia in suppressing both acute and chronic seizures, suggesting that microglia are a potential therapeutic target for the management of epilepsy.

AB - Microglia are the resident immune cells of the center nervous system and participate in various neurological diseases. Here we determined the function of microglia in epileptogenesis using microglial ablation approaches. Three different microglia-specific genetic tools were used, CX3CR1CreER/+:R26iDTA/+, CX3CR1CreER/+:R26iDTR/+, and CX3CR1CreER/+:Csf1rFlox/Flox mice. We found that microglial depletion led to worse kainic acid (KA)-induced status epilepticus, higher mortality rate, and increased neuronal degeneration in the hippocampus. In KA-induced chronic spontaneous recurrent seizures, microglial depletion increased seizure frequency, interictal spiking, and seizure duration. Therefore, microglial depletion aggravates the severity of KA-induced acute and chronic seizures. Interestingly, microglial repopulation reversed the effects of depletion upon KA-induced status epilepticus. Our results demonstrate a beneficial role of microglia in suppressing both acute and chronic seizures, suggesting that microglia are a potential therapeutic target for the management of epilepsy.

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KW - Kainic acid

KW - Microglia

KW - Microglia depletion

KW - Microglia repopulation

KW - Neuronal degeneration

KW - Spontaneous recurrent seizures

KW - Status epilepticus

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ER -

Microglial depletion aggravates the severity of acute and chronic seizures in mice

Abstract

Keywords

ASJC Scopus subject areas

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