Jiaojiao Zhao , Xia Qin , Lei Yang , Han Guo , Siruan Chen , Keying Tian , Qinghui Guo , Wenya Zhao , Panpan Zhang , Zhanfeng Jia , Zuxiao Yang , Dezhi Kong , Wei Zhang
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Abstract
Background
Kaempferol (KF), the main active ingredient in identifying the authenticity of safflower, has a variety of pharmacological activities and neuroprotective effects. However, the mechanism of KF in the treatment of epilepsy remains unclear. This study aimed to investigate the protective effects of KF on epilepsy and its related mechanisms.
Methods
Network pharmacology was used to explore the targets and mechanisms of safflower antiepileptic action. The protective effect of KF on epilepsy was assessed in the behavior and tissues of epileptic mice. Additionally, the impact of KF on the excitability and calcium transients of rat cortical neurons and α-amino-3-hydroxy-5-methyl-4-isoxazole-propionicacid receptor (AMPAR) were investigated using patch clamp and calcium imaging techniques.
Results
Network pharmacology indicated safflower could be involved in calcium signaling pathways and calcium channel inhibitor activity. Experimental validation demonstrated that KF delayed seizure onset and mitigated neuronal damage in the prefrontal cortex of mice. It also reduced neuronal excitability, as indicated by action potential parameters, and suppressed Glutamate (Glu)-induced calcium transients. In tsA201 cells, KF inhibited AMPAR-mediated currents, suggesting a role in regulating [Ca2+]i homeostasis.
Conclusion
These results indicate that KF's anticonvulsant properties may arise from its neuroprotection against cell injury, edema, and necrosis, its reduction of neuronal hyperexcitability, and its prevention of calcium-induced cytotoxicity, potentially involving AMPAR modulation. This study positions KF as a promising candidate for epilepsy therapy, offering a scientific foundation for its clinical investigation.
期刊介绍:
The Brain Research Bulletin (BRB) aims to publish novel work that advances our knowledge of molecular and cellular mechanisms that underlie neural network properties associated with behavior, cognition and other brain functions during neurodevelopment and in the adult. Although clinical research is out of the Journal''s scope, the BRB also aims to publish translation research that provides insight into biological mechanisms and processes associated with neurodegeneration mechanisms, neurological diseases and neuropsychiatric disorders. The Journal is especially interested in research using novel methodologies, such as optogenetics, multielectrode array recordings and life imaging in wild-type and genetically-modified animal models, with the goal to advance our understanding of how neurons, glia and networks function in vivo.
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