Frontiers in Immunology (Dec 2018)

Overcoming Target Driven Fratricide for T Cell Therapy

  • Eytan Breman,
  • Benjamin Demoulin,
  • Sophie Agaugué,
  • Sebastien Mauën,
  • Alexandre Michaux,
  • Lorraine Springuel,
  • Julien Houssa,
  • Fanny Huberty,
  • Céline Jacques-Hespel,
  • Céline Marchand,
  • Jérôme Marijsse,
  • Thuy Nguyen,
  • Nancy Ramelot,
  • Benjamin Violle,
  • Dorothée Daro,
  • Peter De Waele,
  • David E. Gilham,
  • Valérie Steenwinckel

DOI
https://doi.org/10.3389/fimmu.2018.02940
Journal volume & issue
Vol. 9

Abstract

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Chimeric Antigen Receptor (CAR) T cells expressing the fusion of the NKG2D protein with CD3ζ (NKG2D-CAR T Cells) acquire a specificity for stress-induced ligands expressed on hematological and solid cancers. However, these stress ligands are also transiently expressed by activated T cells implying that NKG2D-based T cells may undergo self-killing (fratricide) during cell manufacturing or during the freeze thaw cycle prior to infusion in patients. To avoid target-driven fratricide and enable the production of NKG2D-CAR T cells for clinical application, two distinct approaches were investigated. The first focused upon the inclusion of a Phosphoinositol-3-Kinase inhibitor (LY294002) into the production process. A second strategy involved the inclusion of antibody blockade of NKG2D itself. Both processes impacted T cell fratricide, albeit at different levels with the antibody process being the most effective in terms of cell yield. While both approaches generated comparable NKG2D-CAR T cells, there were subtle differences, for example in differentiation status, that were fine-tuned through the phasing of the inhibitor and antibody during culture in order to generate a highly potent NKG2D-CAR T cell product. By means of targeted inhibition of NKG2D expression or generic inhibition of enzyme function, target-driven CAR T fratricide can be overcome. These strategies have been incorporated into on-going clinical trials to enable a highly efficient and reproducible manufacturing process for NKG2D-CAR T cells.

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