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. 2022 Oct;4(10):1287-1305.
doi: 10.1038/s42255-022-00643-4. Epub 2022 Oct 6.

Microglial hexokinase 2 deficiency increases ATP generation through lipid metabolism leading to β-amyloid clearance

Lige Leng  1 Ziqi Yuan  2 Ruiyuan Pan  3 Xiao Su  2 Han Wang  2 Jin Xue  2 Kai Zhuang  2 Ju Gao  4 Zhenlei Chen  2 Hui Lin  2 Wenting Xie  2 Huifang Li  2 Zhenyi Chen  5 Keke Ren  6 Xiao Zhang  7 Wenting Wang  6 Zi-Bing Jin  7 Shengxi Wu  6 Xinglong Wang  4 Zengqiang Yuan  3 Huaxi Xu  2 Hei-Man Chow  8 Jie Zhang  9   10   11
Affiliations

Microglial hexokinase 2 deficiency increases ATP generation through lipid metabolism leading to β-amyloid clearance

Lige Leng et al. Nat Metab. 2022 Oct.

Erratum in

Abstract

Microglial cells consume adenosine triphosphate (ATP) during phagocytosis to clear neurotoxic β-amyloid in Alzheimer's disease (AD). However, the contribution of energy metabolism to microglial function in AD remains unclear. Here, we demonstrate that hexokinase 2 (HK2) is elevated in microglia from an AD mouse model (5xFAD) and AD patients. Genetic deletion or pharmacological inhibition of HK2 significantly promotes microglial phagocytosis, lowers the amyloid plaque burden and attenuates cognitive impairment in male AD mice. Notably, the ATP level is dramatically increased in HK2-deficient or inactive microglia, which can be attributed to a marked upregulation in lipoprotein lipase (LPL) expression and subsequent increase in lipid metabolism. We further show that two downstream metabolites of HK2, glucose-6-phosphate and fructose-6-phosphate, can reverse HK2-deficiency-induced upregulation of LPL, thus supporting ATP production and microglial phagocytosis. Our findings uncover a crucial role for HK2 in phagocytosis through regulation of microglial energy metabolism, suggesting a potential therapeutic strategy for AD by targeting HK2.

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Comment in

  • Lipid fuel for hungry-angry microglia.
    Choi H, Mook-Jung I. Choi H, et al. Nat Metab. 2022 Oct;4(10):1223-1224. doi: 10.1038/s42255-022-00647-0. Nat Metab. 2022. PMID: 36203055 No abstract available.

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