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Pharmacological induction of AMFR increases functional EAAT2 oligomer levels and reduces epileptic seizures in mice
Longze Sha, Guanjun Li, Xiuneng Zhang, Yarong Lin, Yunjie Qiu, Yu Deng, Wanwan Zhu, Qi Xu
Longze Sha, Guanjun Li, Xiuneng Zhang, Yarong Lin, Yunjie Qiu, Yu Deng, Wanwan Zhu, Qi Xu
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Research Article Neuroscience

Pharmacological induction of AMFR increases functional EAAT2 oligomer levels and reduces epileptic seizures in mice

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Abstract

Dysregulation of excitatory amino acid transporter 2 (EAAT2) contributes to the development of temporal lobe epilepsy (TLE). Several strategies for increasing total EAAT2 levels have been proposed. However, the mechanism underlying the oligomeric assembly of EAAT2, impairment of which inhibits the formation of functional oligomers by EAAT2 monomers, is still poorly understood. In the present study, we identified E3 ubiquitin ligase AMFR as an EAAT2-interacting protein. AMFR specifically increased the level of EAAT2 oligomers rather than inducing protein degradation through K542-specific ubiquitination. By using tissues from humans with TLE and epilepsy model mice, we observed that AMFR and EAAT2 oligomer levels were simultaneously decreased in the hippocampus. Screening of 2386 FDA-approved drugs revealed that the most common analgesic/antipyretic medicine, acetaminophen (APAP), can induce AMFR transcriptional activation via transcription factor SP1. Administration of APAP protected against pentylenetetrazol-induced epileptogenesis. In mice with chronic epilepsy, APAP treatment partially reduced the occurrence of spontaneous seizures and greatly enhanced the antiepileptic effects of 17AAG, an Hsp90 inhibitor that upregulates total EAAT2 levels, when the 2 compounds were administered together. In summary, our studies reveal an essential role for AMFR in regulating the oligomeric state of EAAT2 and suggest that APAP can improve the efficacy of EAAT2-targeted antiepileptic treatments.

Authors

Longze Sha, Guanjun Li, Xiuneng Zhang, Yarong Lin, Yunjie Qiu, Yu Deng, Wanwan Zhu, Qi Xu

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Figure 8

The antiepileptic effects of APAP in a mouse model of chronic TLE.

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The antiepileptic effects of APAP in a mouse model of chronic TLE.
(A) E...
(A) Experimental design. (B) Examples of daily recordings of spontaneous recurrent seizures in the vehicle, LTG, APAP, and APAP/17AAG treatment groups. LTG was administered i.p. at a dose of 20 mg/kg daily (n = 6). APAP was administered i.p. at a dose of 50 mg/kg daily (n = 8). 17AAG was administered i.p. at a dose of 25 mg/kg once every other day (n = 6). DMSO was used as a vehicle control (n = 6). (C–F) Statistical analyses of the difference in seizure frequency (average number of seizures per day) between baseline and after treatment. (G) Statistical analysis of the difference in the fold change in seizure frequency before and after treatment with vehicle, LTG, 17AAG, or APAP/17AAG. (H) Native-PAGE and SDS-PAGE followed by immunoblotting analysis of lysates from the hippocampus ipsilateral to KA injection (left; n = 5). Five weeks after hippocampal injection of KA, mice were given APAP, 17AAG, or their combination for 2 weeks. Statistical analysis of the level of total EAAT2 in samples subjected to SDS-PAGE and EAAT2 oligomer levels in samples subjected to native-PAGE (right). Numbers on the right of blots indicate kilodaltons. Paired t test (C–F). Student’s t test (G). Two-way ANOVA followed by post hoc multiple comparisons test (H). **P < 0.01, ***P < 0.001.

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