Frontiers in Immunology (Apr 2020)

Multiplex T Cell Stimulation Assay Utilizing a T Cell Activation Reporter-Based Detection System

  • Sarah E. Mann,
  • Zhicheng Zhou,
  • Laurie G. Landry,
  • Amanda M. Anderson,
  • Aimon K. Alkanani,
  • Jeremy Fischer,
  • Mark Peakman,
  • Roberto Mallone,
  • Roberto Mallone,
  • Kristen Campbell,
  • Aaron W. Michels,
  • Aaron W. Michels,
  • Maki Nakayama,
  • Maki Nakayama,
  • Maki Nakayama

DOI
https://doi.org/10.3389/fimmu.2020.00633
Journal volume & issue
Vol. 11

Abstract

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Recent advancements in single cell sequencing technologies allow for identification of numerous immune-receptors expressed by T cells such as tumor-specific and autoimmune T cells. Determining antigen specificity of those cells holds immense therapeutic promise. Therefore, the purpose of this study was to develop a method that can efficiently test antigen reactivity of multiple T cell receptors (TCRs) with limited cost, time, and labor. Nuclear factor of activated T cells (NFAT) is a transcription factor involved in producing cytokines and is often utilized as a reporter system for T cell activation. Using a NFAT-based fluorescent reporter system, we generated T-hybridoma cell lines that express intensely fluorescent proteins in response to antigen stimulation and constitutively express additional fluorescent proteins, which serve as identifiers of each T-hybridoma expressing a unique TCR. This allows for the combination of multiple T-hybridoma lines within a single reaction. Sensitivity to stimulation is not decreased by adding fluorescent proteins or multiplexing T cells. In multiplexed reactions, response by one cell line does not induce response in others, thus preserving specificity. This multiplex assay system will be a useful tool for antigen discovery research in a variety of contexts, including using combinatorial peptide libraries to determine T cell epitopes.

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