神经炎症
癫痫发生
神经科学
基诺美
认知功能衰退
炎症
下调和上调
癫痫
信号转导
串扰
小胶质细胞
医学
调解人
生物
激酶
海马结构
可药性
计算机科学
HMGB1
受体
TLR4型
MAPK/ERK通路
认知
作者
Q. Edward Wang,Tingting Qu,Qibing Sun,Ran Li,Junfei Dong,Yuming Du,Ziyin Xuan,Lei Wang,Hongxia Li,Jianyun Sun,F. Chen,Jinshuai Liu,Zifan Yang,Jianxiang Lei,Qian Yang,B. Wang,Zhiming Zhou,Yu Wang
标识
DOI:10.1002/advs.202519642
摘要
Neuroinflammation is a critical driver of epileptogenesis and cognitive dysfunction in epilepsy; however, targeted anti-inflammatory therapies remain limited. In this study, we demonstrate that microglial GPR35 orchestrates neuroinflammatory epileptic networks through platelet-derived growth factor A (PDGFA)-dependent signaling. Single-nucleus RNA sequencing of patients with temporal lobe epilepsy (TLE) and pharmacological models reveals selective GPR35 upregulation in disease-associated microglia. GPR35 deficiency exacerbates seizure susceptibility and cognitive deficits. We further demonstrate that GPR35 activation mitigates seizures, suppresses hippocampal neuroinflammation, and alleviates cognitive deficits. Mechanistically, kynurenic acid-activated GPR35 specifically interacts with PDGFA domain 2 via defined binding motifs, thereby suppressing PDGFA degradation through the ubiquitin-proteasome pathway. This cascade triggers PI3K-AKT signaling and subsequently inhibits pro-inflammatory responses. Conversely, GPR35 deficiency disrupts this pathway of neuroinflammation, and hyperexcitability. PDGFA overexpression phenocopies GPR35 activation, attenuating inflammation and epileptogenesis. These findings establish GPR35 as a critical modulator of epileptic networks via PDGFA-dependent anti-inflammatory signaling, bridging neuroimmune crosstalk with the pathophysiology of epilepsy. Our study identifies GPR35 as a druggable target capable of disrupting the vicious cycle of inflammation and hyperexcitability in epilepsy, offering a dual therapeutic strategy to alleviate seizures and cognitive comorbidities.
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