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[Preprint]. 2023 Nov 30:2023.11.29.568292. [Version 1] doi: 10.1101/2023.11.29.568292

Parsing digital or analogue TCR performance through piconewton forces

Aoi Akitsu, Eiji Kobayashi, Yinnian Feng, Hannah M Stephens, Kristine N Brazin, Daniel J Masi, Evan H Kirpatrick, Robert J Mallis, Jonathan S Duke-Cohan, Matthew A Booker, Vincenzo Cinella, William W Feng, Elizabeth L Holliday, Jonathan J Lee, Katarzyna J Zienkiewicz, Michael Y Tolstorukov, Wonmuk Hwang, Matthew J Lang, Ellis L Reinherz
PMCID: PMC10705438  PMID: 38076892

Abstract

αβ T-cell receptors (TCRs) recognize aberrant peptides bound to major histocompatibility complex molecules (pMHCs) on unhealthy cells, amplifying specificity and sensitivity through physical load placed on the TCR-pMHC bond during immunosurveillance. To understand this mechanobiology, TCRs stimulated by abundantly and sparsely arrayed epitopes (NP 366-374 /D b and PA 224-233 /D b , respectively) following in vivo influenza A virus infection were studied with optical tweezers. While certain NP repertoire CD8 T lymphocytes require many ligands for activation, others are digital, needing just few. Conversely, all PA TCRs perform digitally, exhibiting pronounced bond lifetime increases through sustained, energizing volleys of structural transitioning. Optimal digital performance is superior in vivo, correlating with ERK phosphorylation, CD3 loss, and activation marker upregulation in vitro . Given neoantigen array paucity, digital TCRs are likely critical for immunotherapies.

One Sentence Summary

Quality of ligand recognition in a T-cell repertoire is revealed through application of physical load on clonal T-cell receptor (TCR)-pMHC bonds

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