Optimizing Dendritic Cell-Based Approaches for Cancer Immunotherapy |
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Authors: | Jashodeep Datta Julia H. Terhune Lea Lowenfeld Jessica A. Cintolo Shuwen Xu Robert E. Roses Brian J. Czerniecki |
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Affiliation: | aDepartment of Surgery, University of Pennsylvania Perelman School of Medicine, Philadelphia, Pennsylvania;bDepartment of Surgery, University of Maryland School of Medicine, Baltimore, Maryland |
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Abstract: | Dendritic cells (DC) are professional antigen-presenting cells uniquely suited for cancer immunotherapy. They induce primary immune responses, potentiate the effector functions of previously primed T-lymphocytes, and orchestrate communication between innate and adaptive immunity. The remarkable diversity of cytokine activation regimens, DC maturation states, and antigen-loading strategies employed in current DC-based vaccine design reflect an evolving, but incomplete, understanding of optimal DC immunobiology. In the clinical realm, existing DC-based cancer immunotherapy efforts have yielded encouraging but inconsistent results. Despite recent U.S. Federal and Drug Administration (FDA) approval of DC-based sipuleucel-T for metastatic castration-resistant prostate cancer, clinically effective DC immunotherapy as monotherapy for a majority of tumors remains a distant goal. Recent work has identified strategies that may allow for more potent “next-generation” DC vaccines. Additionally, multimodality approaches incorporating DC-based immunotherapy may improve clinical outcomes. |
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Keywords: | dendritic cell immunotherapy cancer vaccine combination therapy chemotherapy |
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