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. 2025 Oct;30(10):4749-4763.
doi: 10.1038/s41380-025-03069-y. Epub 2025 Jun 3.

Glucose restriction induces degeneration of neurons with mitochondrial DNA depletion by altering ER-mitochondria calcium transfer

Lingyan Zhou #  1   2   3   4 Feixiang Bao #  1 Jiajun Zheng #  5 Yingzhe Ding  2 Jiahui Xiao  1   4 Jian Zhang  1 Yongpeng Qin  6 Liang Yang  1 Yi Wu  1 Qi Meng  1   3 Manjiao Lu  1   3 Qi Long  3 Lingli Hu  1 Chong Li  7 Haitao Wang  8 Shijuan Huang  1 Linpeng Li  3 Junwei Wang  1 Wuming Wang  9 Gang Lu  9 Wai-Yee Chan  9 Dajiang Qin  10 Gong Chen  11 Xingguo Liu  12   13   14
Affiliations

Glucose restriction induces degeneration of neurons with mitochondrial DNA depletion by altering ER-mitochondria calcium transfer

Lingyan Zhou et al. Mol Psychiatry. 2025 Oct.

Abstract

Mitochondrial DNA (mtDNA) mutations and/or depletion are implicated in epilepsy and many neurodegenerative diseases. However, systematic investigation into how mtDNA alterations relate to epilepsy and neural degeneration is needed. Here, we established a mouse model in which mtDNA depletion is induced by the Herpes Simplex Virus Type 1 (HSV-1) protein UL12.5 in the brain led to an epileptic phenotype characterized by abnormal electroencephalography (EEG) patterns and increased neural excitability in hippocampus. We also found that UL12.5 mediated mtDNA depletion in neurons in vitro (rho-) causes epilepsy-like abnormal EEG. Caloric restriction (CR) or glucose restriction (GR) is a strategy proven to reduce epileptic activity, however GR mimetic 2-deoxy-D-glucose (2-DG), induced degeneration in mtDNA depleted neurons. Mechanistically, mtDNA depletion increased mitochondria-endoplasmic reticulum (ER) contacts, facilitating GR-induced mitochondrial calcium overload. Rho- neurons did not show changes in mitochondrial motility or membrane potential. Our study revealed an unexpected axis of mtDNA depletion, ER-mitochondrial contacts, and calcium overload in the rho- neuron model. Fasting-induced GR causes early motor dysfunction, accelerates epilepsy progression, and worsens neurodegeneration in UL12.5 mice. Importantly, the IP3R inhibitor 2-APB blocks the neurodegeneration induced by fasting. This is the first description of animal and neuronal models of mitochondrial epilepsy. Our findings with these models suggest that GR may not be a viable clinical intervention in patients with mtDNA depletion.

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Conflict of interest statement

Competing interests: The authors declare no competing interests.

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