Molecular Therapy: Methods & Clinical Development (Jun 2022)

Transcriptomic analysis reveals optimal cytokine combinations for SARS-CoV-2-specific T cell therapy products

  • Jessica Durkee-Shock,
  • Christopher A. Lazarski,
  • Mariah A. Jensen-Wachspress,
  • Anqing Zhang,
  • Aran Son,
  • Vaishnavi V. Kankate,
  • Naomi E. Field,
  • Kathleen Webber,
  • Haili Lang,
  • Susan R. Conway,
  • Patrick J. Hanley,
  • Catherine M. Bollard,
  • Michael D. Keller,
  • Daniella M. Schwartz

Journal volume & issue
Vol. 25
pp. 439 – 447

Abstract

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Adoptive T cell immunotherapy has been used to restore immunity against multiple viral targets in immunocompromised patients after bone-marrow transplantation and has been proposed as a strategy for preventing coronavirus 2019 (COVID-19) in this population. Ideally, expanded severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)-virus-specific T cells (CSTs) should demonstrate marked cell expansion, T cell specificity, and CD8+ T cell skewing prior to adoptive transfer. However, current methodologies using IL-4 + IL-7 result in suboptimal specificity, especially in CD8+ cells. Using a microexpansion platform, we screened various cytokine cocktails (IL-4 + IL-7, IL-15, IL-15 + IL-4, IL-15 + IL-6, and IL-15 + IL-7) for the most favorable culture conditions. IL-15 + IL-7 optimally balanced T cell expansion, polyfunctionality, and CD8+ T cell skewing of a final therapeutic T cell product. Additionally, the transcriptomes of CD4+ and CD8+ T cells cultured with IL-15 + IL-7 displayed the strongest induction of antiviral type I interferon (IFN) response genes. Subsequently, microexpansion results were successfully translated to a Good Manufacturing Practice (GMP)-applicable format where IL-15 + IL-7 outperformed IL-4 + IL-7 in specificity and expansion, especially in the desirable CD8+ T cell compartment. These results demonstrate the functional implications of IL-15-, IL-4-, and IL-7-containing cocktails for therapeutic T cell expansion, which could have broad implication for cellular therapy, and pioneer the use of RNA sequencing (RNA-seq) to guide viral-specific T cell (VST) product manufacturing.

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