Litcius/Paper detail

ERK Activation in CAR T Cells Is Amplified by CD28-Mediated Increase in CD3ζ Phosphorylation

Jennifer A. Rohrs, Elizabeth L. Siegler, Pin Wang, Stacey D. Finley

2020iScience39 citationsDOIOpen Access PDF

Abstract

Chimeric antigen receptors (CARs) are engineered receptors that mediate T cell activation. CARs are comprised of activating and co-stimulatory intracellular signaling domains derived from endogenous T cells that initiate signaling required for T cell activation, including ERK activation through the MAPK pathway. Understanding the mechanisms by which co-stimulatory domains influence signaling can help guide the design of next-generation CARs. Therefore, we constructed an experimentally validated computational model of anti-CD19 CARs in T cells bearing the CD3ζ domain alone or in combination with CD28. We performed a systematic analysis to explore the different mechanisms of CD28 co-stimulation on the ERK response time. Comparing these model simulations with experimental data indicates that CD28 primarily influences ERK activation by enhancing the phosphorylation kinetics of CD3ζ. Overall, we present a mechanistic mathematical modeling framework that can be used to gain insights into the mechanism of CAR T cell activation and produce new testable hypotheses.

Topics & Concepts

CD28MAPK/ERK pathwayCell biologyPhosphorylationT-cell receptorCD19Chimeric antigen receptorChemistrySignal transductionCD3T cellJurkat cellsBiologyCellAntigenBiochemistryImmunologyCD8Immune systemCAR-T cell therapy researchImmune Cell Function and InteractionT-cell and B-cell Immunology