Litcius/Paper detail

PFKFB3-Meditated Glycolysis via the Reactive Oxygen Species–Hypoxic Inducible Factor 1α Axis Contributes to Inflammation and Proliferation of<i>Staphylococcus aureus</i>in Epithelial Cells

Xing Gao, Zhenglei Wang, Yuanyuan Xu, Shiyuan Feng, Shaodong Fu, Zhenhua Luo, Jinfeng Miao

2023The Journal of Infectious Diseases12 citationsDOIOpen Access PDF

Abstract

Mastitis caused by antibiotic-resistant strains of Staphylococcus aureus is a significant concern in the livestock industry due to the economic losses it incurs. Regulating immunometabolism has emerged as a promising approach for preventing bacterial inflammation. To investigate the possibility of alleviating inflammation caused by S aureus infection by regulating host glycolysis, we subjected the murine mammary epithelial cell line (EpH4-Ev) to S aureus challenge. Our study revealed that S aureus can colonize EpH4-Ev cells and promote inflammation through hypoxic inducible factor 1α (HIF1α)-driven glycolysis. Notably, the activation of HIF1α was found to be dependent on the production of reactive oxygen species (ROS). By inhibiting PFKFB3, a key regulator in the host glycolytic pathway, we successfully modulated HIF1α-triggered metabolic reprogramming by reducing ROS production in S aureus-induced mastitis. Our findings suggest that there is a high potential for the development of novel anti-inflammatory therapies that safely inhibit the glycolytic rate-limiting enzyme PFKFB3.

Topics & Concepts

GlycolysisStaphylococcus aureusInflammationMicrobiologyReactive oxygen speciesRegulatorChemotaxisHypoxia-inducible factorsBiologyAnaerobic glycolysisCell biologyChemistryBacteriaImmunologyEnzymeBiochemistryGeneReceptorGeneticsCancer, Hypoxia, and MetabolismCancer Research and TreatmentsMesenchymal stem cell research