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Height, but not binding epitope, affects the potency of synthetic TCR agonists

Kiera B. Wilhelm, Shumpei Morita, Darren B. McAffee, Sungi Kim, Mark K. O’Dair, Jay T. Groves

2021Biophysical Journal18 citationsDOIOpen Access PDF

Abstract

Under physiological conditions, peptide-major histocompatibility complex (pMHC) molecules can trigger T cell receptors (TCRs) as monovalent ligands that are sparsely distributed on the plasma membrane of an antigen-presenting cell. TCRs can also be triggered by artificial clustering, such as with pMHC tetramers or antibodies; however, these strategies circumvent many of the natural ligand discrimination mechanisms of the T cell and can elicit nonphysiological signaling activity. We have recently introduced a synthetic TCR agonist composed of an anti-TCRβ Fab' antibody fragment covalently bound to a DNA oligonucleotide, which serves as a membrane anchor. This Fab'-DNA ligand efficiently triggers TCR as a monomer when membrane associated and exhibits a potency and activation profile resembling agonist pMHC. In this report, we explore the geometric requirements for efficient TCR triggering and cellular activation by Fab'-DNA ligands. We find that T cells are insensitive to the ligand binding epitope on the TCR complex but that length of the DNA tether is important. Increasing, the intermembrane distance spanned by Fab'-DNA:TCR complexes decreases TCR triggering efficiency and T cell activation potency, consistent with the kinetic-segregation model of TCR triggering. These results establish design parameters for constructing synthetic TCR agonists that are able to activate polyclonal T cell populations, such as T cells from a human patient, in a similar manner as the native pMHC ligand.

Topics & Concepts

T-cell receptorPolyclonal antibodiesEpitopeMajor histocompatibility complexLigand (biochemistry)T cellOligonucleotideDNACell biologyChemistryAntigenAgonistBiophysicsReceptorMolecular biologyBiologyBiochemistryImmune systemImmunologyCAR-T cell therapy researchT-cell and B-cell ImmunologyImmune Cell Function and Interaction
Height, but not binding epitope, affects the potency of synthetic TCR agonists | Litcius