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解析 Mecp2 缺陷模型中的自噬失衡和治疗见解。

Unraveling autophagic imbalances and therapeutic insights in Mecp2-deficient models.

机构信息

Division of Neuroscience, IRCCS San Raffaele Scientific Institute, Milan, Italy.

Department of Medical Biotechnology and Translational Medicine, University of Milan, Segrate, Italy.

出版信息

EMBO Mol Med. 2024 Nov;16(11):2795-2826. doi: 10.1038/s44321-024-00151-w. Epub 2024 Oct 14.

DOI:10.1038/s44321-024-00151-w
PMID:39402139
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11555085/
Abstract

Loss-of-function mutations in MECP2 are associated to Rett syndrome (RTT), a severe neurodevelopmental disease. Mainly working as a transcriptional regulator, MeCP2 absence leads to gene expression perturbations resulting in deficits of synaptic function and neuronal activity. In addition, RTT patients and mouse models suffer from a complex metabolic syndrome, suggesting that related cellular pathways might contribute to neuropathogenesis. Along this line, autophagy is critical in sustaining developing neuron homeostasis by breaking down dysfunctional proteins, lipids, and organelles.Here, we investigated the autophagic pathway in RTT and found reduced content of autophagic vacuoles in Mecp2 knock-out neurons. This correlates with defective lipidation of LC3B, probably caused by a deficiency of the autophagic membrane lipid phosphatidylethanolamine. The administration of the autophagy inducer trehalose recovers LC3B lipidation, autophagosomes content in knock-out neurons, and ameliorates their morphology, neuronal activity and synaptic ultrastructure. Moreover, we provide evidence for attenuation of motor and exploratory impairment in Mecp2 knock-out mice upon trehalose administration. Overall, our findings open new perspectives for neurodevelopmental disorders therapies based on the concept of autophagy modulation.

摘要

MECP2 基因功能缺失突变与雷特综合征(RTT)有关,后者是一种严重的神经发育疾病。MeCP2 主要作为转录调节剂发挥作用,其缺失会导致基因表达失调,从而导致突触功能和神经元活性缺陷。此外,RTT 患者和小鼠模型患有复杂的代谢综合征,这表明相关的细胞通路可能有助于神经发病机制。在这方面,自噬对于维持发育中的神经元稳态至关重要,它可以通过分解功能失调的蛋白质、脂质和细胞器来实现。在这里,我们研究了 RTT 中的自噬途径,发现 Mecp2 敲除神经元中的自噬小体含量减少。这与 LC3B 的脂质化缺陷相关,可能是由于自噬膜脂质磷脂酰乙醇胺的缺乏所致。自噬诱导剂海藻糖的给药可恢复 LC3B 的脂质化、敲除神经元中的自噬体含量,并改善其形态、神经元活性和突触超微结构。此外,我们提供的证据表明,海藻糖给药可减轻 Mecp2 敲除小鼠的运动和探索障碍。总的来说,我们的发现为基于自噬调节概念的神经发育障碍治疗开辟了新的前景。

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