Author: Ye, Chunting; Yang, Hongyuan; Cheng, Mingshan; Shultz, Leonard D.; Greiner, Dale L.; Brehm, Michael A.; Keck, James G.
Title: A rapid, sensitive, and reproducible in vivo PBMC humanized murine model for determining therapeuticâ€related cytokine release syndrome Cord-id: 7wcow3a0 Document date: 2020_8_9
ID: 7wcow3a0
Snippet: Immunotherapy is a powerful treatment strategy being applied to cancer, autoimmune diseases, allergies, and transplantation. Although therapeutic monoclonal antibodies (mAbs) have demonstrated significant clinical efficacy, there is also the potential for severe adverse events, including cytokine release syndrome (CRS). CRS is characterized by the rapid production of inflammatory cytokines following delivery of therapy, with symptoms ranging from mild fever to lifeâ€threating pathology and mult
Document: Immunotherapy is a powerful treatment strategy being applied to cancer, autoimmune diseases, allergies, and transplantation. Although therapeutic monoclonal antibodies (mAbs) have demonstrated significant clinical efficacy, there is also the potential for severe adverse events, including cytokine release syndrome (CRS). CRS is characterized by the rapid production of inflammatory cytokines following delivery of therapy, with symptoms ranging from mild fever to lifeâ€threating pathology and multiâ€organ failure. Overall there is a paucity of models to reliably and accurately predict the induction of CRS by immune therapeutics. Here, we describe the development of a humanized mouse model based on the NODâ€scid IL2rg(null) (NSG) mouse to study CRS in vivo. PBMCâ€engrafted NSG, NSGâ€MHCâ€DKO, and NSGâ€SGM3 mice were used to study cytokine release in response to treatment with mAb immunotherapies. Our data show that therapeuticâ€stimulated cytokine release in these PBMCâ€based NSG models captures the variation in cytokine release between individual donors, is drug dependent, occurs in the absence of acute xenoâ€GVHD, highlighting the specificity of the assay, and shows a robust response following treatment with a TGN1412 analog, a CD28 superagonist. Overall our results demonstrate that PBMCâ€engrafted NSG models are rapid, sensitive, and reproducible platforms to screen novel therapeutics for CRS.
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