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Supplementary Figure 3 from Nivolumab and Urelumab Enhance Antitumor Activity of Human T Lymphocytes Engrafted in Rag2−/−IL2Rγnull Immunodeficient Mice

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posted on 2023-03-30, 23:27 authored by Miguel F. Sanmamed, Inmaculada Rodriguez, Kurt A. Schalper, Carmen Oñate, Arantza Azpilikueta, Maria E. Rodriguez-Ruiz, Aizea Morales-Kastresana, Sara Labiano, Jose L. Pérez-Gracia, Salvador Martín-Algarra, Carlos Alfaro, Guillermo Mazzolini, Francesca Sarno, Manuel Hidalgo, Alan J. Korman, Maria Jure-Kunkel, Ignacio Melero

Timing of peripheral tissue infiltration by transferred human T-lymphocytes into Rag2-/-IL2Rgcnull mice.

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ARTICLE ABSTRACT

A current pressing need in cancer immunology is the development of preclinical model systems that are immunocompetent for the study of human tumors. Here, we report the development of a humanized murine model that can be used to analyze the pharmacodynamics and antitumor properties of immunostimulatory monoclonal antibodies (mAb) in settings where the receptors targeted by the mAbs are expressed. Human lymphocytes transferred into immunodeficient mice underwent activation and redistribution to murine organs, where they exhibited cell-surface expression of hCD137 and hPD-1. Systemic lymphocyte infiltrations resulted in a lethal CD4+ T cell–mediated disease (xenograft-versus-host disease), which was aggravated when murine subjects were administered clinical-grade anti-hCD137 (urelumab) and anti-hPD-1 (nivolumab). In mice engrafted with human colorectal HT-29 carcinoma cells and allogeneic human peripheral blood mononuclear cells (PBMC), or with a patient-derived gastric carcinoma and PBMCs from the same patient, we found that coadministration of urelumab and nivolumab was sufficient to significantly slow tumor growth. Correlated with this result were increased numbers of activated human T lymphocytes producing IFNγ and decreased numbers of human regulatory T lymphocytes in the tumor xenografts, possibly explaining the efficacy of the therapeutic regimen. Our results offer a proof of concept for the use of humanized mouse models for surrogate efficacy and histology investigations of immune checkpoint drugs and their combinations. Cancer Res; 75(17); 3466–78. ©2015 AACR.

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