Redox Biology (Nov 2021)

Glutathione-S-transferase P promotes glycolysis in asthma in association with oxidation of pyruvate kinase M2

  • Cheryl van de Wetering,
  • Allison M. Manuel,
  • Mona Sharafi,
  • Reem Aboushousha,
  • Xi Qian,
  • Cuixia Erickson,
  • Maximilian MacPherson,
  • Garrett Chan,
  • Ian M. Adcock,
  • Nazanin ZounematKermani,
  • Florence Schleich,
  • Renaud Louis,
  • Eric Bohrnsen,
  • Angelo D'Alessandro,
  • Emiel F. Wouters,
  • Niki L. Reynaert,
  • Jianing Li,
  • C. Roland Wolf,
  • Colin J. Henderson,
  • Lennart K.A. Lundblad,
  • Matthew E. Poynter,
  • Anne E. Dixon,
  • Charles G. Irvin,
  • Albert van der Vliet,
  • Jos L. van der Velden,
  • Yvonne M. Janssen-Heininger

Journal volume & issue
Vol. 47
p. 102160

Abstract

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Background: Interleukin-1-dependent increases in glycolysis promote allergic airways disease in mice and disruption of pyruvate kinase M2 (PKM2) activity is critical herein. Glutathione-S-transferase P (GSTP) has been implicated in asthma pathogenesis and regulates the oxidation state of proteins via S-glutathionylation. We addressed whether GSTP-dependent S-glutathionylation promotes allergic airways disease by promoting glycolytic reprogramming and whether it involves the disruption of PKM2. Methods: We used house dust mite (HDM) or interleukin-1β in C57BL6/NJ WT or mice that lack GSTP. Airway basal cells were stimulated with interleukin-1β and the selective GSTP inhibitor, TLK199. GSTP and PKM2 were evaluated in sputum samples of asthmatics and healthy controls and incorporated analysis of the U-BIOPRED severe asthma cohort database. Results: Ablation of Gstp decreased total S-glutathionylation and attenuated HDM-induced allergic airways disease and interleukin-1β-mediated inflammation. Gstp deletion or inhibition by TLK199 decreased the interleukin-1β-stimulated secretion of pro-inflammatory mediators and lactate by epithelial cells. 13C-glucose metabolomics showed decreased glycolysis flux at the pyruvate kinase step in response to TLK199. GSTP and PKM2 levels were increased in BAL of HDM-exposed mice as well as in sputum of asthmatics compared to controls. Sputum proteomics and transcriptomics revealed strong correlations between GSTP, PKM2, and the glycolysis pathway in asthma. Conclusions: GSTP contributes to the pathogenesis of allergic airways disease in association with enhanced glycolysis and oxidative disruption of PKM2. Our findings also suggest a PKM2-GSTP-glycolysis signature in asthma that is associated with severe disease.

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