How the T cell signaling network processes information to discriminate between self and agonist ligands

Author:

Ganti Raman S.,Lo Wan-LinORCID,McAffee Darren B.,Groves Jay T.,Weiss ArthurORCID,Chakraborty Arup K.

Abstract

T cells exhibit remarkable sensitivity and selectivity in detecting and responding to agonist peptides (p) bound to MHC molecules in a sea of self pMHC molecules. Despite much work, understanding of the underlying mechanisms of distinguishing such ligands remains incomplete. Here, we quantify T cell discriminatory capacity using channel capacity, a direct measure of the signaling network’s ability to discriminate between antigen-presenting cells (APCs) displaying either self ligands or a mixture of self and agonist ligands. This metric shows how differences in information content between these two types of peptidomes are decoded by the topology and rates of kinetic proofreading signaling steps inside T cells. Using channel capacity, we constructed numerically substantiated hypotheses to explain the discriminatory role of a recently identified slow LAT Y132 phosphorylation step. Our results revealed that in addition to the number and kinetics of sequential signaling steps, a key determinant of discriminatory capability is spatial localization of a minimum number of these steps to the engaged TCR. Biochemical and imaging experiments support these findings. Our results also reveal the discriminatory role of early negative feedback and necessary amplification conferred by late positive feedback.

Funder

Jane Coffin Childs Memorial Fund for Medical Research

HHS | NIH | National Institute of Allergy and Infectious Diseases

Publisher

Proceedings of the National Academy of Sciences

Subject

Multidisciplinary

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