Isolation of a Structural Mechanism for Uncoupling T Cell Receptor Signaling from Peptide-MHC Binding

TCR-signaling strength generally correlates with peptide-MHC binding affinity; however, exceptions exist. We find high-affinity, yet non-stimulatory, interactions occur with high frequency in the human T cell repertoire. Here, we studied human TCRs that are refractory to activation by pMHC ligands d...

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Veröffentlicht in:Cell 2018-07, Vol.174 (3)
Hauptverfasser: Sibener, Leah V., Fernandes, Ricardo A., Kolawole, Elizabeth M., Carbone, Catherine B., Liu, Fan, McAffee, Darren, Birnbaum, Michael E., Yang, Xinbo, Su, Laura F., Yu, Wong, Dong, Shen, Gee, Marvin H., Jude, Kevin M., Davis, Mark M., Groves, Jay T., Goddard, III, William A., Heath, James R., Evavold, Brian D., Vale, Ronald D., Garcia, K. Christopher
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Sprache:eng
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Zusammenfassung:TCR-signaling strength generally correlates with peptide-MHC binding affinity; however, exceptions exist. We find high-affinity, yet non-stimulatory, interactions occur with high frequency in the human T cell repertoire. Here, we studied human TCRs that are refractory to activation by pMHC ligands despite robust binding. Analysis of 3D affinity, 2D dwell time, and crystal structures of stimulatory versus non-stimulatory TCR-pMHC interactions failed to account for their different signaling outcomes. Using yeast pMHC display, we identified peptide agonists of a formerly non-responsive TCR. Single-molecule force measurements demonstrated the emergence of catch bonds in the activating TCR-pMHC interactions, correlating with exclusion of CD45 from the TCR-APC contact site. Molecular dynamics simulations of TCR-pMHC disengagement distinguished agonist from non-agonist ligands based on the acquisition of catch bonds within the TCR-pMHC interface. In conclusion, the isolation of catch bonds as a parameter mediating the coupling of TCR binding and signaling has important implications for TCR and antigen engineering for immunotherapy.
ISSN:0092-8674
1097-4172
DOI:10.1016/j.cell.2018.06.017