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Universal antigen encoding of T cell activation from high-dimensional cytokine dynamics.

Sooraj R AcharFrançois X P BourassaThomas J RademakerAngela M LeeTaisuke KondoEmanuel Salazar-CavazosJohn S DaviesNaomi TaylorPaul FrançoisGrégoire Altan-Bonnet
Published in: Science (New York, N.Y.) (2022)
Systems immunology lacks a framework with which to derive theoretical understanding from high-dimensional datasets. We combined a robotic platform with machine learning to experimentally measure and theoretically model CD8 + T cell activation. High-dimensional cytokine dynamics could be compressed onto a low-dimensional latent space in an antigen-specific manner (so-called "antigen encoding"). We used antigen encoding to model and reconstruct patterns of T cell immune activation. The model delineated six classes of antigens eliciting distinct T cell responses. We generalized antigen encoding to multiple immune settings, including drug perturbations and activation of chimeric antigen receptor T cells. Such universal antigen encoding for T cell activation may enable further modeling of immune responses and their rational manipulation to optimize immunotherapies.
Keyphrases
  • machine learning
  • immune response
  • emergency department
  • minimally invasive
  • high throughput
  • artificial intelligence
  • inflammatory response
  • adverse drug