星形胶质细胞的代谢重编程导致智力障碍中的神经元功能障碍。

Metabolic reprogramming in astrocytes results in neuronal dysfunction in intellectual disability.

机构信息

State Key Laboratory of Cellular Stress Biology, Fujian Provincial Key Laboratory of Neurodegenerative Disease and Aging Research, Institute of Neuroscience, Department of Neurosurgery, the First Affiliated Hospital of Xiamen University, School of Medicine, Xiamen University, Xiamen, Fujian, 361102, China.

Shenzhen Research Institute of Xiamen University, Shenzhen, Guangdong, 518057, China.

出版信息

Mol Psychiatry. 2024 Jun;29(6):1569-1582. doi: 10.1038/s41380-022-01521-x. Epub 2022 Mar 25.

DOI:10.1038/s41380-022-01521-x

PMID:35338313

Abstract

Astrocyte aerobic glycolysis provides vital trophic support for central nervous system neurons. However, whether and how astrocytic metabolic dysregulation contributes to neuronal dysfunction in intellectual disability (ID) remain unclear. Here, we demonstrate a causal role for an ID-associated SNX27 mutation (R198W) in cognitive deficits involving reshaping astrocytic metabolism. We generated SNX27 (equivalent to human R198W) knock-in mice and found that they displayed deficits in synaptic function and learning behaviors. SNX27 resulted in attenuated astrocytic glucose uptake via GLUT1, leading to reduced lactate production and a switch from homeostatic to reactive astrocytes. Importantly, lactate supplementation or a ketogenic diet restored neuronal oxidative phosphorylation and reversed cognitive deficits in SNX27 mice. In summary, we illustrate a key role for astrocytic SNX27 in maintaining glucose supply and glycolysis and reveal that altered astrocytic metabolism disrupts the astrocyte-neuron interaction, which contributes to ID. Our work also suggests a feasible strategy for treating ID by restoring astrocytic metabolic function.

摘要

星形胶质细胞的有氧糖酵解为中枢神经系统神经元提供了重要的营养支持。然而，星形胶质细胞代谢失调是否以及如何导致智力障碍（ID）中的神经元功能障碍尚不清楚。在这里，我们证明了与 ID 相关的 SNX27 突变（R198W）在涉及重塑星形胶质细胞代谢的认知缺陷中起着因果作用。我们生成了 SNX27（相当于人类 R198W）敲入小鼠，并发现它们表现出突触功能和学习行为的缺陷。SNX27 通过 GLUT1 减弱了星形胶质细胞的葡萄糖摄取，导致乳酸生成减少，并从稳态向反应性星形胶质细胞转变。重要的是，补充乳酸或生酮饮食恢复了神经元的氧化磷酸化，并逆转了 SNX27 小鼠的认知缺陷。总之，我们说明了星形胶质细胞 SNX27 在维持葡萄糖供应和糖酵解中的关键作用，并揭示了改变的星形胶质细胞代谢破坏了星形胶质细胞-神经元相互作用，这导致了 ID。我们的工作还表明，通过恢复星形胶质细胞的代谢功能来治疗 ID 是一种可行的策略。

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星形胶质细胞的代谢重编程导致智力障碍中的神经元功能障碍。

Metabolic reprogramming in astrocytes results in neuronal dysfunction in intellectual disability.

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