| Literature DB >> 27789538 |
Anthony F O Daniyan1, Renier J Brentjens2,3,4.
Abstract
The chimeric antigen receptor (CAR) represents the epitome of cellular engineering and is one of the best examples of rational biologic design of a synthetic molecule. The CAR is a single polypeptide with modular domains, consisting of an antibody-derived targeting moiety, fused in line with T cell-derived signaling domains, allowing for T cell activation upon ligand binding. T cells expressing a CAR are able to eradicate selectively antigen-expressing tumor cells in a MHC-independent fashion. CD19, a tumor-associated antigen (TAA) present on normal B cells, as well as most B cell-derived malignancies, was an early target of this technology. Through years of experimental refinement and preclinical optimization, autologously derived CD19-targeting CAR T cells have been successfully, clinically deployed, resulting in dramatic and durable antitumor responses but not without therapy-associated toxicity. As CD19-targeted CAR T cells continue to show clinical success, work at the bench continues to be undertaken to increase further the efficacy of this therapy, while simultaneously minimizing the risk for treatment-related morbidities. In this review, we cover the history and evolution of CAR technology and its adaptation to targeting CD19. Furthermore, we discuss the future of CAR T cell therapy and the need to ask, as well as answer, critical questions as this treatment modality is being translated to the clinic. © Society for Leukocyte Biology.Entities:
Keywords: CD19; adoptive immunotherapy; cellular engineering; synthetic biology
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Year: 2016 PMID: 27789538 PMCID: PMC6608016 DOI: 10.1189/jlb.5BT1215-556RR
Source DB: PubMed Journal: J Leukoc Biol ISSN: 0741-5400 Impact factor: 4.962