Author: Nouveau, Lise; Buatois, Vanessa; Cons, Laura; Chatel, Laurence; Pontini, Guillemette; Pleche, Nicolas; Ferlin, Walter G.
Title: Immunological analysis of the murine antiâ€CD3â€induced cytokine release syndrome model and therapeutic efficacy of antiâ€cytokine antibodies Cord-id: qmefxg6b Document date: 2021_5_19
ID: qmefxg6b
Snippet: The aberrant release of inflammatory mediators often referred to as a cytokine storm or cytokine release syndrome (CRS), is a common and sometimes fatal complication in acute infectious diseases including Ebola, dengue, COVIDâ€19, and influenza. Fatal CRS occurrences have also plagued the development of highly promising cancer therapies based on Tâ€cell engagers and chimeric antigen receptor (CAR) T cells. CRS is intimately linked with dysregulated and excessive cytokine release, including IFN
Document: The aberrant release of inflammatory mediators often referred to as a cytokine storm or cytokine release syndrome (CRS), is a common and sometimes fatal complication in acute infectious diseases including Ebola, dengue, COVIDâ€19, and influenza. Fatal CRS occurrences have also plagued the development of highly promising cancer therapies based on Tâ€cell engagers and chimeric antigen receptor (CAR) T cells. CRS is intimately linked with dysregulated and excessive cytokine release, including IFNâ€Î³, TNFâ€Î±, IL 1, ILâ€6, and ILâ€10, resulting in a systemic inflammatory response leading to multiple organ failure. Here, we show that mice intravenously administered the agonistic hamster antiâ€mouse CD3ε monoclonal antibody 145â€2C11 develop clinical and laboratory manifestations seen in patients afflicted with CRS, including body weight loss, hepatosplenomegaly, thrombocytopenia, increased vascular permeability, lung inflammation, and hypercytokinemia. Blood cytokine levels and gene expression analysis from lung, liver, and spleen demonstrated a hierarchy of inflammatory cytokine production and infiltrating immune cells with differentiating organâ€dependent kinetics. ILâ€2, IFNâ€Î³, TNFâ€Î±, and ILâ€6 upâ€regulation preceded clinical signs of CRS. The coâ€treatment of mice with a neutralizing antiâ€cytokine antibody cocktail transiently improved early clinical and laboratory features of CRS. We discuss the predictive use of this model in the context of new antiâ€cytokine strategies to treat human CRS.
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