Ketogenic diet dampens excitatory neurotransmission by shrinking synaptic vesicle pools

神经传递 兴奋性突触后电位 神经科学 突触可塑性 突触小泡 生物 神经促进 海马体 海马结构 突触疲劳 突触增强 抑制性突触后电位 小泡 受体 生物化学
作者
Marion I. Stunault,Pan‐Yue Deng,Erica M. Periandri,Francisca N. de L. Vitorino,Amelia J Barfield,Rocío Guillén Ponce,Benjamin A. García,Gábor Egervári,Vitaly A. Klyachko,Ghazaleh Ashrafi
出处
期刊: [Cold Spring Harbor Laboratory]
标识
DOI:10.1101/2025.06.04.657883
摘要

The ketogenic diet (KD) is a common dietary intervention for treating seizures in intractable childhood epilepsies and has been proposed to improve disease outcome in neurodegenerative disorders. Despite its clinical applications, we know little about how this diet impacts brain circuitry and neuronal function to elicit its protective effects. Here, we examined the impact of the KD on hippocampal function through integrative analysis of gene expression, epigenetics and neurotransmission. We found that KD induces profound transcriptional reprogramming of the hippocampus, including dampened expression of numerous synaptic genes. Through proteomic analysis of histone variants and post-translational modifications, we uncovered significant changes in activating and repressive histone marks in the hippocampus of KD mice. To determine how transcriptional rewiring of the hippocampus under KD impacts neurotransmission, we performed electrophysiological recordings of neurotransmission and synaptic dynamics at excitatory CA3-CA1 synapses. We found that KD diminishes synaptic gain and dampens short-term plasticity at excitatory synapses, resulting in reduced integration of synaptic inputs at the circuit level. Combining electrophysiology and electron microscopy, we determined that effects of KD in excitatory synapses are caused by a reduction in size of the readily releasable pool of synaptic vesicles, as well as the total vesicle pool. Our findings show that the ketogenic diet triggers synaptic remodeling in the hippocampus, driven by broad transcriptional and epigenetic changes that reduce synaptic vesicle pools and short-term plasticity at excitatory synapses ultimately dampening excitatory synaptic gain and integration at the circuit level. These synaptic adaptations may represent a major mechanism underlying the anti-epileptic effects of this diet.
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