Frontiers in Immunology (Dec 2022)

Oxygen level is a critical regulator of human B cell differentiation and IgG class switch recombination

  • Jana Koers,
  • Casper Marsman,
  • Juulke Steuten,
  • Simon Tol,
  • Ninotska I. L. Derksen,
  • Anja ten Brinke,
  • S. Marieke van Ham,
  • S. Marieke van Ham,
  • Theo Rispens

DOI
https://doi.org/10.3389/fimmu.2022.1082154
Journal volume & issue
Vol. 13

Abstract

Read online

The generation of high-affinity antibodies requires an efficient germinal center (GC) response. As differentiating B cells cycle between GC dark and light zones they encounter different oxygen pressures (pO2). However, it is essentially unknown if and how variations in pO2 affect B cell differentiation, in particular for humans. Using optimized in vitro cultures together with in-depth assessment of B cell phenotype and signaling pathways, we show that oxygen is a critical regulator of human naive B cell differentiation and class switch recombination. Normoxia promotes differentiation into functional antibody secreting cells, while a population of CD27++ B cells was uniquely generated under hypoxia. Moreover, time-dependent transitions between hypoxic and normoxic pO2 during culture - reminiscent of in vivo GC cyclic re-entry - steer different human B cell differentiation trajectories and IgG class switch recombination. Taken together, we identified multiple mechanisms trough which oxygen pressure governs human B cell differentiation.

Keywords