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Engineered T-cell Receptor T Cells for Cancer Immunotherapy

Uri Greenbaum, Ecaterina I. Dumbrava, Amadeo B. Biter, Cara Haymaker, David S. Hong

2021Cancer Immunology Research38 citationsDOIOpen Access PDF

Abstract

Engineering immune cells to target cancer is a rapidly advancing technology. The first commercial products, chimeric-antigen receptor (CAR) T cells, are now approved for hematologic malignancies. However, solid tumors pose a greater challenge for cellular therapy, in part because suitable cancer-specific antigens are more difficult to identify and surrounding healthy tissues are harder to avoid. In addition, impaired trafficking of immune cells to solid tumors, the harsh immune-inhibitory microenvironment, and variable antigen density and presentation help tumors evade immune cells targeting cancer-specific antigens. To overcome these obstacles, T cells are being engineered to express defined T-cell receptors (TCR). Given that TCRs target intracellular peptides expressed on tumor MHC molecules, this provides an expanded pool of potential targetable tumor-specific antigens relative to the cell-surface antigens that are targeted by CAR T cells. The affinity of TCR T cells can be tuned to allow for better tumor recognition, even with varying levels of antigen presentation on the tumor and surrounding healthy tissue. Further enhancements to TCR T cells include improved platforms that enable more robust cell expansion and persistence; coadministration of small molecules that enhance tumor recognition and immune activation; and coexpression of cytokine-producing moieties, activating coreceptors, or mediators that relieve checkpoint blockade. Early-phase clinical trials pose logistical challenges involving production, large-scale manufacturing, and more. The challenges and obstacles to successful TCR T-cell therapy, and ways to overcome these and improve anticancer activity and efficacy, are discussed herein.

Topics & Concepts

Chimeric antigen receptorT-cell receptorAntigenImmune systemImmunotherapyCancer immunotherapyTumor microenvironmentT cellAntigen presentationCancer researchImmune checkpointImmunologyBiologyCAR-T cell therapy researchNanowire Synthesis and ApplicationsImmunotherapy and Immune Responses