Author
Listed:
- Tianpeng Zhang
(Guangzhou University of Chinese Medicine
College of Pharmacy, Jinan University
Integrated Chinese and Western Medicine Postdoctoral research station, Jinan University)
- Fangjun Yu
(College of Pharmacy, Jinan University)
- Haiman Xu
(College of Pharmacy, Jinan University)
- Min Chen
(College of Pharmacy, Jinan University)
- Xun Chen
(College of Pharmacy, Jinan University)
- Lianxia Guo
(College of Pharmacy, Jinan University)
- Cui Zhou
(College of Pharmacy, Jinan University)
- Yuting Xu
(Southern Medical University)
- Fei Wang
(College of Pharmacy, Jinan University)
- Jiandong Yu
(Jinan University)
- Baojian Wu
(Guangzhou University of Chinese Medicine
College of Pharmacy, Jinan University)
Abstract
To design potentially more effective therapies, we need to further understand the mechanisms underlying epilepsy. Here, we uncover the role of Rev-erbα in circadian regulation of epileptic seizures. We first show up-regulation of REV-ERBα/Rev-erbα in brain tissues from patients with epilepsy and a mouse model. Ablation or pharmacological modulation of Rev-erbα in mice decreases the susceptibility to acute and chronic seizures, and abolishes diurnal rhythmicity in seizure severity, whereas activation of Rev-erbα increases the animal susceptibility. Rev-erbα ablation or antagonism also leads to prolonged spontaneous inhibitory postsynaptic currents and elevated frequency in the mouse hippocampus, indicating enhanced GABAergic signaling. We also identify the transporters Slc6a1 and Slc6a11 as regulators of Rev-erbα-mediated clearance of GABA. Mechanistically, Rev-erbα promotes the expressions of Slc6a1 and Slc6a11 through transcriptional repression of E4bp4. Our findings propose Rev-erbα as a regulator of synaptic function at the crosstalk between pathways regulating the circadian clock and epilepsy.
Suggested Citation
Tianpeng Zhang & Fangjun Yu & Haiman Xu & Min Chen & Xun Chen & Lianxia Guo & Cui Zhou & Yuting Xu & Fei Wang & Jiandong Yu & Baojian Wu, 2021.
"Dysregulation of REV-ERBα impairs GABAergic function and promotes epileptic seizures in preclinical models,"
Nature Communications, Nature, vol. 12(1), pages 1-14, December.
Handle:
RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-21477-w
DOI: 10.1038/s41467-021-21477-w
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