Acetylated mitochondrial MDH2 regulates CTR2 transcription to induce cuproptosis during Escherichia coli infection
Wang Hao, Xiao Peng, Chen Liping, Zhou Meng, Zhang Jingsong, Xiao Jinlong, Zhao Ru, Zhao Jingang, Pan Tianling, Sheng Jue, Li Yue, Ma Jinzhi, Lv Longbao, Yan Yulin, Gao Hong
Journal:Nature Communications
IF:18.1
DOI:10.1038/s41467-026-73280-0
PMID:42161958
Published:2026-05-21
research field:细胞生物学传染病学微生物学宿主-病原体相互作用代谢学
Abstract
Pathogenic bacteria frequently manipulate host cell death pathways to facilitate infection, though the precise mechanisms remain elusive. Here, we demonstrate that pathogenic Escherichia coli disrupts copper homeostasis through upregulation of copper transporter CTR2, thereby triggering cuproptosis to drive infectious pathology. During infection, circulating lipopolysaccharide activates the morphological hallmarks of cuproptosis via the gut–LPS–liver axis. Furthermore, mitochondrial malate dehydrogenase 2 (MDH2) functions as a transcriptional regulator, triggering CTR2 expression and metabolic reprogramming via acetylation-dependent nuclear translocation in response to infection. Notably, inhibiting cuproptosis mitigates liver damage caused by infection, highlighting its critical role in pathogen-host interactions. These findings identify a mechanism underlying E. coli pathogenesis and support therapeutic approaches based on targeted modulation of metal-dependent cell death.
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