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The human epilepsy mutation GABRG2(Q390X) causes chronic subunit accumulation and neurodegeneration.

ABSTRACT: Genetic epilepsy and neurodegenerative diseases are two common neurological disorders that are conventionally viewed as being unrelated. A subset of patients with severe genetic epilepsies who have impaired development and often go on to die of their disease respond poorly to anticonvulsant drug therapy, suggesting a need for new therapeutic targets. Previously, we reported that multiple GABAA receptor epilepsy mutations result in protein misfolding and abnormal receptor trafficking. We have now developed a model of a severe human genetic epileptic encephalopathy, the Gabrg2(+/Q390X) knock-in mouse. We found that, in addition to impairing inhibitory neurotransmission, mutant GABAA receptor ?2(Q390X) subunits accumulated and aggregated intracellularly, activated caspase 3 and caused widespread, age-dependent neurodegeneration. These findings suggest that the fundamental protein metabolism and cellular consequences of the epilepsy-associated mutant ?2(Q390X) ion channel subunit are not fundamentally different from those associated with neurodegeneration. Our results have far-reaching relevance for the identification of conserved pathological cascades and mechanism-based therapies that are shared between genetic epilepsies and neurodegenerative diseases.

SUBMITTER: Kang JQ 

PROVIDER: S-EPMC4482801 | biostudies-other | 2015 Jul

REPOSITORIES: biostudies-other

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The human epilepsy mutation GABRG2(Q390X) causes chronic subunit accumulation and neurodegeneration.

Kang Jing-Qiong JQ   Shen Wangzhen W   Zhou Chengwen C   Xu Dong D   Macdonald Robert L RL  

Nature neuroscience 20150525 7

Genetic epilepsy and neurodegenerative diseases are two common neurological disorders that are conventionally viewed as being unrelated. A subset of patients with severe genetic epilepsies who have impaired development and often go on to die of their disease respond poorly to anticonvulsant drug therapy, suggesting a need for new therapeutic targets. Previously, we reported that multiple GABAA receptor epilepsy mutations result in protein misfolding and abnormal receptor trafficking. We have now  ...[more]

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