生酮饮食产生的β-羟丁酸可积聚脑内的GABA,并增加GABA/谷氨酸的比例,从而抑制癫痫。

IF 13 1区 生物学 Q1 CELL BIOLOGY
Ya-Nan Qiao, Lei Li, Song-Hua Hu, Yuan-Xin Yang, Zhen-Zhen Ma, Lin Huang, Yan-Peng An, Yi-Yuan Yuan, Yan Lin, Wei Xu, Yao Li, Peng-Cheng Lin, Jing Cao, Jian-Yuan Zhao, Shi-Min Zhao
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引用次数: 0

摘要

生酮饮食(KD)能缓解难治性癫痫并减少儿童癫痫发作。然而,生酮饮食发挥抗癫痫疗效的代谢/细胞生物机制仍然难以捉摸。在此,我们报告了KD产生的β-羟丁酸(BHB)能增强脑内的γ-氨基丁酸(GABA)和GABA/谷氨酸比率,从而抑制癫痫。KD能改善戊四唑诱发的小鼠癫痫。从机制上讲,KD 产生的 BHB(而非其他酮体)抑制了 HDAC1/HDAC2,增加了 H3K27 乙酰化,并转录上调了 SIRT4 和谷氨酸脱羧酶 1(GAD1)。BHB 诱导的 SIRT4 可使谷氨酸脱氢酶脱氨化和失活,从而为 GABA 的合成保留谷氨酸,而 GAD1 的上调可增加小鼠大脑中 GABA/ 谷氨酸的比例,从而抑制神经元的兴奋。给小鼠服用 BHB 可抑制戊四唑诱发的癫痫。BHB介导的癫痫缓解需要较高的GABA水平和GABA/谷氨酸比率。这些结果确定了 BHB 是 KD 的主要抗癫痫代谢物,并表明 BHB 可作为一种替代 KD 的毒性较低的抗癫痫药物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Ketogenic diet-produced β-hydroxybutyric acid accumulates brain GABA and increases GABA/glutamate ratio to inhibit epilepsy.

Ketogenic diet-produced β-hydroxybutyric acid accumulates brain GABA and increases GABA/glutamate ratio to inhibit epilepsy.

Ketogenic diet (KD) alleviates refractory epilepsy and reduces seizures in children. However, the metabolic/cell biologic mechanisms by which the KD exerts its antiepileptic efficacy remain elusive. Herein, we report that KD-produced β-hydroxybutyric acid (BHB) augments brain gamma-aminobutyric acid (GABA) and the GABA/glutamate ratio to inhibit epilepsy. The KD ameliorated pentetrazol-induced epilepsy in mice. Mechanistically, KD-produced BHB, but not other ketone bodies, inhibited HDAC1/HDAC2, increased H3K27 acetylation, and transcriptionally upregulated SIRT4 and glutamate decarboxylase 1 (GAD1). BHB-induced SIRT4 de-carbamylated and inactivated glutamate dehydrogenase to preserve glutamate for GABA synthesis, and GAD1 upregulation increased mouse brain GABA/glutamate ratio to inhibit neuron excitation. BHB administration in mice inhibited epilepsy induced by pentetrazol. BHB-mediated relief of epilepsy required high GABA level and GABA/glutamate ratio. These results identified BHB as the major antiepileptic metabolite of the KD and suggested that BHB may serve as an alternative and less toxic antiepileptic agent than KD.

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来源期刊
Cell Discovery
Cell Discovery Biochemistry, Genetics and Molecular Biology-Molecular Biology
CiteScore
24.20
自引率
0.60%
发文量
120
审稿时长
20 weeks
期刊介绍: Cell Discovery is a cutting-edge, open access journal published by Springer Nature in collaboration with the Center for Excellence in Molecular Cell Science, Chinese Academy of Sciences (CAS). Our aim is to provide a dynamic and accessible platform for scientists to showcase their exceptional original research. Cell Discovery covers a wide range of topics within the fields of molecular and cell biology. We eagerly publish results of great significance and that are of broad interest to the scientific community. With an international authorship and a focus on basic life sciences, our journal is a valued member of Springer Nature's prestigious Molecular Cell Biology journals. In summary, Cell Discovery offers a fresh approach to scholarly publishing, enabling scientists from around the world to share their exceptional findings in molecular and cell biology.
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