Abstract
Cell-based therapies using genetically engineered lymphocytes expressing antigen-specific T cell receptors (TCRs) hold promise for the treatment of several types of cancers. Almost all studies using this modality have focused on transfer of TCR from CD8 cytotoxic T lymphocytes (CTLs). The transfer of TCR from innate lymphocytes to other lymphocytes has not been studied. In the current study, innate and adaptive lymphocytes were transfected with the human NKT cell-derived TCRα and β chain mRNA (the Vα24 and Vβ11 TCR chains). When primary T cells transfected with NKT cell-derived TCR were subsequently stimulated with the NKT ligand, α-galactosylceramide (α-GalCer), they secreted IFN-γ in a ligand-specific manner. Furthermore when γδT cells were transfected with NKT cell-derived TCR mRNA, they demonstrated enhanced proliferation, IFN-γ production and antitumor effects after α-GalCer stimulation as compared to parental γδT cells. Importantly, NKT cell TCR-transfected γδT cells responded to both NKT cell and γδT cell ligands, rendering them bi-potential innate lymphocytes. Because NKT cell receptors are unique and universal invariant receptors in humans, the TCR chains do not yield mispaired receptors with endogenous TCR α and β chains after the transfection. The transfection of NKT cell TCR has the potential to be a new approach to tumor immunotherapy in patients with various types of cancer.
Highlights
The use of genetically modified lymphocytes in basic and translational research has increased dramatically in recent years [1, 2]
The current study evaluates the effects of transfecting human natural killer T (NKT) cell-derived T cell receptors (TCRs) α and β chain mRNA into either innate or adaptive lymphocytes
This study demonstrated that γδT cells and primary adaptive lymphocytes transfected with the NKT-TCR retain parental T cell qualities while acquiring NKT cell functionality, creating a bi-potential T cell
Summary
The use of genetically modified lymphocytes in basic and translational research has increased dramatically in recent years [1, 2]. T cells engineered to express MHC-unrestricted chimeric antigen receptors (CARs) have demonstrated efficacy in human trials [1, 2]. These approaches are attractive because CTLs with high affinity and specificity are increasingly easy to generate and can be adapted to treat a number of PLOS ONE | DOI:10.1371/journal.pone.0131477. We transfected γδT cells with NKT derived-TCR α- and β-chains and evaluated their anti-tumor effects. This approach resulted in potent bi-functional γδT cells, which recognized both the NKT cell and the γδT cell ligands
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