iScience (Aug 2024)

Cytokine profile of anti-spike CD4+T cells predicts humoral and CD8+T cell responses after anti-SARS-CoV-2 mRNA vaccination

  • Nadine Benhamouda,
  • Anissa Besbes,
  • Rebecca Bauer,
  • Nesrine Mabrouk,
  • Gauthier Gadouas,
  • Corinne Desaint,
  • Lucie Chevrier,
  • Maeva Lefebvre,
  • Anne Radenne,
  • Marie Roelens,
  • Béatrice Parfait,
  • Daniela Weiskopf,
  • Alessandro Sette,
  • Nadège Gruel,
  • Marie Courbebaisse,
  • Victor Appay,
  • Stephane Paul,
  • Guy Gorochov,
  • Jacques Ropers,
  • Said Lebbah,
  • Jean-Daniel Lelievre,
  • Ludger Johannes,
  • Jonathan Ulmer,
  • David Lebeaux,
  • Gerard Friedlander,
  • Xavier De Lamballerie,
  • Patrice Ravel,
  • Marie Paule Kieny,
  • Fréderic Batteux,
  • Christine Durier,
  • Odile Launay,
  • Eric Tartour

Journal volume & issue
Vol. 27, no. 8
p. 110441

Abstract

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Summary: Coordinating immune responses – humoral and cellular – is vital for protection against severe Covid-19. Our study evaluates a multicytokine CD4+T cell signature’s predictive for post-vaccinal serological and CD8+T cell responses. A cytokine signature composed of four cytokines (IL-2, TNF-α, IP10, IL-9) excluding IFN-γ, and generated through machine learning, effectively predicted the CD8+T cell response following mRNA-1273 or BNT162b2 vaccine administration. Its applicability extends to murine vaccination models, encompassing diverse immunization routes (such as intranasal) and vaccine platforms (including adjuvanted proteins). Notably, we found correlation between CD4+T lymphocyte-produced IL-21 and the humoral response. Consequently, we propose a test that offers a rapid overview of integrated immune responses. This approach holds particular relevance for scenarios involving immunocompromised patients because they often have low cell counts (lymphopenia) or pandemics. This study also underscores the pivotal role of CD4+T cells during a vaccine response and highlights their value in vaccine immunomonitoring.

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