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An explorable model of an adverse outcome pathway of cytokine release syndrome related to the administration of immunomodulatory biotherapeutics and cellular therapies

Mazein, Alexander ; Lopata, Oxana ; Reiche, Kristin ; Sewald, Katherina ; Alb, Miriam ; Sakellariou, Christina LU orcid ; Gogesch, Patricia ; Morgan, Hannah ; Neuhaus, Vanessa and Pham, Nhu Nguyen , et al. (2025) In Frontiers in Immunology 16.
Abstract

Introduction: Cytokine release syndrome (CRS) is a potentially severe systemic inflammatory condition triggered by various immunomodulatory therapies, making understanding its pathogenesis critical for improving patient outcomes. Results/Methods: By combining immunotoxicology and systems biology approaches, we offer a novel and integrative conceptual model of CRS as an adverse outcome (AO), induced by five different immunomodulatory biotherapies: 1) chimeric antigen receptor (CAR) T cells, 2) checkpoint inhibitors, 3) T cell engaging bispecific modalities, 4) monoclonal antibodies targeting and activating T cell receptors, and 5) FcγR activating monoclonal antibodies. This model uniquely integrates multiple CRS-inducing therapies into a... (More)

Introduction: Cytokine release syndrome (CRS) is a potentially severe systemic inflammatory condition triggered by various immunomodulatory therapies, making understanding its pathogenesis critical for improving patient outcomes. Results/Methods: By combining immunotoxicology and systems biology approaches, we offer a novel and integrative conceptual model of CRS as an adverse outcome (AO), induced by five different immunomodulatory biotherapies: 1) chimeric antigen receptor (CAR) T cells, 2) checkpoint inhibitors, 3) T cell engaging bispecific modalities, 4) monoclonal antibodies targeting and activating T cell receptors, and 5) FcγR activating monoclonal antibodies. This model uniquely integrates multiple CRS-inducing therapies into a unified framework, offering a comprehensive mechanistic representation of CRS pathophysiology. For that, we built an adverse outcome pathway (AOP) CRS network for these therapies and then developed a systems biology map of molecular mechanisms relevant to the AOP network. The map of mechanisms is made available via a dedicated online platform for exploration and data visualisation. It includes 24 cell types, 425 entities and 430 interactions. Discussion: Beyond a static representation, the CRS Map serves as a dynamic tool for clinical and research applications, allowing researchers and clinicians to explore CRS progression in detail, identify biomarkers, and discover potential therapeutic targets. The map demonstrates stages of CRS progression and shows molecules that can be measured in relevant immunotoxicological assays, as well as potential drug targets for therapeutic intervention of CRS.

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Contribution to journal
publication status
published
subject
keywords
adverse outcome pathway (AOP), CAR T cells, cytokine release syndrome (CRS), immunomodulatory therapies, systems biology, systems toxicology
in
Frontiers in Immunology
volume
16
article number
1601670
publisher
Frontiers Media S. A.
external identifiers
  • pmid:40861455
  • scopus:105013871881
ISSN
1664-3224
DOI
10.3389/fimmu.2025.1601670
language
English
LU publication?
yes
id
9f59a447-acfd-41ea-a0ec-cd22aa67845f
date added to LUP
2025-11-17 14:23:54
date last changed
2025-11-18 03:29:54
@article{9f59a447-acfd-41ea-a0ec-cd22aa67845f,
  abstract     = {{<p>Introduction: Cytokine release syndrome (CRS) is a potentially severe systemic inflammatory condition triggered by various immunomodulatory therapies, making understanding its pathogenesis critical for improving patient outcomes. Results/Methods: By combining immunotoxicology and systems biology approaches, we offer a novel and integrative conceptual model of CRS as an adverse outcome (AO), induced by five different immunomodulatory biotherapies: 1) chimeric antigen receptor (CAR) T cells, 2) checkpoint inhibitors, 3) T cell engaging bispecific modalities, 4) monoclonal antibodies targeting and activating T cell receptors, and 5) FcγR activating monoclonal antibodies. This model uniquely integrates multiple CRS-inducing therapies into a unified framework, offering a comprehensive mechanistic representation of CRS pathophysiology. For that, we built an adverse outcome pathway (AOP) CRS network for these therapies and then developed a systems biology map of molecular mechanisms relevant to the AOP network. The map of mechanisms is made available via a dedicated online platform for exploration and data visualisation. It includes 24 cell types, 425 entities and 430 interactions. Discussion: Beyond a static representation, the CRS Map serves as a dynamic tool for clinical and research applications, allowing researchers and clinicians to explore CRS progression in detail, identify biomarkers, and discover potential therapeutic targets. The map demonstrates stages of CRS progression and shows molecules that can be measured in relevant immunotoxicological assays, as well as potential drug targets for therapeutic intervention of CRS.</p>}},
  author       = {{Mazein, Alexander and Lopata, Oxana and Reiche, Kristin and Sewald, Katherina and Alb, Miriam and Sakellariou, Christina and Gogesch, Patricia and Morgan, Hannah and Neuhaus, Vanessa and Pham, Nhu Nguyen and Sommer, Charline and Perkins, Ethan and Fogal, Birgit and Shoaib, Muhammad and Schneider, Reinhard and Satagopam, Venkata and Ostaszewski, Marek}},
  issn         = {{1664-3224}},
  keywords     = {{adverse outcome pathway (AOP); CAR T cells; cytokine release syndrome (CRS); immunomodulatory therapies; systems biology; systems toxicology}},
  language     = {{eng}},
  publisher    = {{Frontiers Media S. A.}},
  series       = {{Frontiers in Immunology}},
  title        = {{An explorable model of an adverse outcome pathway of cytokine release syndrome related to the administration of immunomodulatory biotherapeutics and cellular therapies}},
  url          = {{http://dx.doi.org/10.3389/fimmu.2025.1601670}},
  doi          = {{10.3389/fimmu.2025.1601670}},
  volume       = {{16}},
  year         = {{2025}},
}