NKG2D defines tumor-reacting effector CD8+ T cells within tumor microenvironment.

For successful immunotherapy for cancer, it is important to understand the immunological status of tumor antigen-specific CD8+ T cells in the tumor microenvironment during tumor progression. In this study, we monitored the behavior of B16OVA-Luc cells in mice immunized with a model tumor antigen ovalbumin (OVA). Using bioluminescence imaging, we identified the time series of OVA-specific CD8+ T-cell responses during tumor progression: initial progression, immune control, and the escape phase. As a result of analyzing the status of tumor antigen-specific CD8+ cells in those 3 different phases, we found that the expression of NKG2D defines tumor-reacting effector CD8+ T cells. NKG2D may control the fate and TOX expression of tumor-reacting CD8+ T cells, considering that NKG2D blockade in OVA-vaccinated mice delayed the growth of the B16OVA-Luc2 tumor and increased the presence of tumor-infiltrating OVA-specific CD8+ T cells.

Rapid and efficient generation of T-cell receptor-like antibodies using chip-based single-cell analysis.

Generation of TCR-like monoclonal antibodies using conventional methods is markedly laborious and inefficient. We have proposed improvements of ISAAC (chip-based Ab-secreting cell [ASC] screening method), allows comprehensive analysis of ASCs at the single-cell level to obtain TCR-like antibodies; blocking procedure enables us to avoid the detection of non-TCR-like antibodies.

A novel and simple method to produce large amounts of recombinant soluble peptide/major histocompatibility complex monomers for analysis of antigen-specific human T cell receptors.

Soluble peptide/major histocompatibility complex (p/MHC) tetramers that directly bind to T cell receptors (TCRs) allow the direct quantification, phenotypic characterization and isolation of antigen-specific T cells. Conventionally, soluble p/MHC tetramers have been produced using Escherichia coli, but this method requires refolding of the recombinant proteins. Here, a novel and technically simple method that does not require protein refolding in vitro has been developed for the high-throughput generation of soluble and functional p/MHC-single chain trimer (SCT) monomers and tetramers in a mammalian cell system. The p/MHC-SCT tetramers generated by this method bound to the corresponding antigen-specific TCRs. Moreover, the immobilized p/MHC-SCT monomers effectively activated antigen-specific T cell lines as well as primary T cells in an antigen-specific manner. This technique provides a robust improvement in the technology, such that recombinant soluble p/MHC monomers and tetramers can be produced more readily and which enables their use in analysis of antigen-specific T cells in basic and clinical studies.

Identification of Tumoricidal TCRs from Tumor-Infiltrating Lymphocytes by Single-Cell Analysis.

T-cell receptor (TCR) gene therapy is a promising next-generation antitumor treatment. We previously developed a single-T-cell analysis protocol that allows the rapid capture of paired TCRα and ß cDNAs. Here, we applied the protocol to analyze the TCR repertoire of tumor-infiltrating lymphocytes (TIL) of various cancer patients. We found clonally expanded populations of T cells that expressed the same clonotypic TCR in 50% to 70% of CD137+CD8+ TILs, indicating that they responded to certain antigens in the tumor environment. To assess the tumor reactivity of the TCRs derived from those clonally expanded TILs in detail, we then analyzed the CD137+CD8+ TILs from the tumor of B16F10 melanoma cells in six C57BL/6 mice and analyzed their TCR repertoire. We also found clonally expanded T cells in 60% to 90% of CD137+CD8+ TILs. When the tumor reactivity of dominant clonotypic TCRs in each mouse was analyzed, 9 of 13 TCRs induced the secretion of IFNγ in response to, and showed killing of, B16F10 cells in vitro, and 2 of them showed strong antitumor activity in vivo Concerning their antigen specificity, 7 of them reacted to p15E peptide of endogenous murine leukemia virus-derived envelope glycoprotein 70, and the rest reacted to tumor-associated antigens expressed on EL4 lymphoma as well as B16 melanoma cells. These results show that our strategy enables us to simply and rapidly obtain the tumor-specific TCR repertoire with high fidelity in an antigen- and MHC haplotype-independent manner from primary TILs. Cancer Immunol Res; 6(4); 378-88. ©2018 AACR.