iScience (Sep 2023)

Glucose oxidation-dependent survival of activated B cells provides a putative novel therapeutic target for lupus treatment

  • John J. Wilson,
  • Jian Wei,
  • Andrea R. Daamen,
  • John D. Sears,
  • Elaine Bechtel,
  • Colleen L. Mayberry,
  • Grace A. Stafford,
  • Lesley Bechtold,
  • Amrie C. Grammer,
  • Peter E. Lipsky,
  • Derry C. Roopenian,
  • Chih-Hao Chang

Journal volume & issue
Vol. 26, no. 9
p. 107487

Abstract

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Summary: Aberrant metabolic demand is observed in immune/inflammatory disorders, yet the role in pathogenesis remains unclear. Here, we discover that in lupus, activated B cells, including germinal center B (GCB) cells, have remarkably high glycolytic requirement for survival over T cell populations, as demonstrated by increased metabolic activity in lupus-activated B cells compared to immunization-induced cells. The augmented reliance on glucose oxidation makes GCB cells vulnerable to mitochondrial ROS-induced oxidative stress and apoptosis. Short-term glycolysis inhibition selectively reduces pathogenic activated B in lupus-prone mice, extending their lifespan, without affecting T follicular helper cells. Particularly, BCMA-expressing GCB cells rely heavily on glucose oxidation. Depleting BCMA-expressing activated B cells with APRIL-based CAR-T cells significantly prolongs the lifespan of mice with severe autoimmune disease. These results reveal that glycolysis-dependent activated B and GCB cells, especially those expressing BCMA, are potentially key lupus mediators, and could be targeted to improve disease outcomes.

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