eLife (May 2023)

Oxygen levels at the time of activation determine T cell persistence and immunotherapeutic efficacy

  • Pedro P Cunha,
  • Eleanor Minogue,
  • Lena CM Krause,
  • Rita M Hess,
  • David Bargiela,
  • Brennan J Wadsworth,
  • Laura Barbieri,
  • Carolin Brombach,
  • Iosifina P Foskolou,
  • Ivan Bogeski,
  • Pedro Velica,
  • Randall S Johnson

DOI
https://doi.org/10.7554/eLife.84280
Journal volume & issue
Vol. 12

Abstract

Read online

Oxygenation levels are a determinative factor in T cell function. Here, we describe how oxygen tensions sensed by mouse and human T cells at the moment of activation act to persistently modulate both differentiation and function. We found that in a protocol of CAR-T cell generation, 24 hr of low oxygen levels during initial CD8+ T cell priming is sufficient to enhance antitumour cytotoxicity in a preclinical model. This is the case even when CAR-T cells are subsequently cultured under high oxygen tensions prior to adoptive transfer. Increased hypoxia-inducible transcription factor (HIF) expression was able to alter T cell fate in a similar manner to exposure to low oxygen tensions; however, only a controlled or temporary increase in HIF signalling was able to consistently improve cytotoxic function of T cells. These data show that oxygenation levels during and immediately after T cell activation play an essential role in regulating T cell function.

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