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Mathematical modeling unveils the timeline of CAR-T cell therapy and macrophage-mediated cytokine release syndrome

Daniela Silva Santurio, Luciana Rodrigues Carvalho Barros, Ingmar Glauche, Artur C. Fassoni

2025PLoS Computational Biology12 citationsDOIOpen Access PDF

Abstract

Chimeric antigen receptor (CAR)-T cell therapy holds significant potential for cancer treatment, although disease relapse and cytokine release syndrome (CRS) remain as frequent clinical challenges. To better understand the mechanisms underlying the temporal dynamics of CAR-T cell therapy response and CRS, we developed a novel multi-layer mathematical model incorporating antigen-mediated CAR-T cell expansion, antigen-negative resistance, and macrophage-associated cytokine release. Three key mechanisms of macrophage activation are considered: release of damage-associated molecular patterns, antigen-binding mediated activation, and CD40-CD40L contact. The model accurately describes 25 patient time courses with different responses and IL-6 cytokine kinetics. We successfully link the dynamic shape of the response to interpretable model parameters and investigate the influence of CAR-T cell dose and initial tumor burden on the occurrence of cytokine release and treatment outcome. By disentangling the timeline of macrophage activation, the model identified distinct contributions of each activation mechanism, suggesting the CD40-CD40L axis as a major driver of cytokine release and a clinically feasible target to control the activation process and modulate cytokine peak height. Our multi-layer model provides a comprehensive framework for understanding the complex interactions between CAR-T cells, tumor cells, and macrophages during therapy.

Topics & Concepts

CytokineChimeric antigen receptorCytokine release syndromeMacrophageTimelineImmunologyCD40T cellCell biologyBiologyCancer researchImmune systemIn vitroCytotoxic T cellBiochemistryHistoryArchaeologyCAR-T cell therapy researchImmune Cell Function and InteractionViral Infectious Diseases and Gene Expression in Insects