Macrophages mediate innate immune responses that recognise foreign pathogens, and bacterial lipopolysaccharide (LPS) recruits a signalling pathway through Toll-like receptor 4 (TLR4) to induce pro-inflammatory cytokines and reactive oxygen species (ROS). LPS activation also skews the metabolism of macrophages towards a glycolytic phenotype. Here, we demonstrate that the LPS-triggered glycolytic switch is significantly attenuated in macrophages deficient for glutathione transferase omega-1 (GSTO1, note that GSTO1-1 refers to the dimeric molecule with identical type 1 subunits). In response to LPS, GSTO1-1-deficient macrophages do not produce excess lactate, or dephosphorylate AMPK, a key metabolic stress regulator. In addition, GSTO1-1-deficient cells do not induce HIF1α, which plays a key role in maintaining the pro-inflammatory state of activated macrophages. The accumulation of the TCA cycle intermediates succinate and fumarate that occurs in LPS-treated macrophages was also blocked in GSTO1-1-deficient cells. These data indicate that GSTO1-1 is required for LPS-mediated signalling in macrophages and that it acts early in the LPS–TLR4 pro-inflammatory pathway.
Deepthi Menon, Ashlee Innes, Aaron J. Oakley, Jane E. Dahlstrom, Lora M. Jensen, Anne Brüstle, Padmaja Tummala, Melissa Rooke, Marco G. Casarotto, Jonathan B. Baell, Nghi Nguyen, Yiyue Xie, Matthew E. Cuellar, Jessica M. Strasser, Jayme L. Dahlin, Michael A. Walters, Gaétan Burgio, Luke O'neill, Philip G. Board
Nathalie Court, Stéphanie Rose, Marie‐Laure Bourigault, Sophie Front, Olivier R. Martin, Jennifer K. Dowling, Elaine F. Kenny, Luke O'neill, François Erard, Valérie Quesniaux
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