Abstract
<div>Abstract<p>Infiltration of tumor by T cells is a prerequisite for successful immunotherapy of solid tumors. In this study, we investigate the influence of tumor-targeted radiation on chimeric antigen receptor (CAR) T-cell therapy tumor infiltration, accumulation, and efficacy in clinically relevant models of pleural mesothelioma and non-small cell lung cancers. We use a non-ablative dose of tumor-targeted radiation prior to systemic administration of mesothelin-targeted CAR T cells to assess infiltration, proliferation, anti-tumor efficacy, and functional persistence of CAR T cells at primary and distant sites of tumor. A tumor-targeted, non-ablative dose of radiation promotes early and high infiltration, proliferation, and functional persistence of CAR T cells. Tumor-targeted radiation promotes tumor-chemokine expression and chemokine-receptor expression in infiltrating T cells, and results in a subpopulation of higher-intensity CAR-expressing T cells with high co-expression of chemokine receptors that further infiltrate distant sites of disease, enhancing CAR T-cell anti-tumor efficacy. Enhanced CAR T-cell efficacy is evident in models of both high-mesothelin-expressing mesothelioma and mixed-mesothelin-expressing lung cancer—two thoracic cancers for which radiation therapy is part of the standard of care. Our results strongly suggest that the use of tumor-targeted radiation prior to systemic administration of CAR T cells may substantially improve CAR T-cell therapy efficacy for solid tumors. Building on our observations, we describe a translational strategy of “sandwich” cell therapy for solid tumors that combines sequential metastatic site–targeted radiation and CAR T cells—a regional solution to overcome barriers to systemic delivery of CAR T cells.</p></div>
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