Targeting human melanoma neoantigens by T cell receptor gene therapy
Matthias Leisegang, … , Wolfgang Uckert, Thomas Blankenstein
Matthias Leisegang, … , Wolfgang Uckert, Thomas Blankenstein
Published January 25, 2016
Citation Information: J Clin Invest. 2016;126(3):854-858. https://doi.org/10.1172/JCI83465.
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Brief Report Oncology

Targeting human melanoma neoantigens by T cell receptor gene therapy

Abstract

In successful cancer immunotherapy, T cell responses appear to be directed toward neoantigens created by somatic mutations; however, direct evidence that neoantigen-specific T cells cause regression of established cancer is lacking. Here, we generated T cells expressing a mutation-specific transgenic T cell receptor (TCR) to target different immunogenic mutations in cyclin-dependent kinase 4 (CDK4) that naturally occur in human melanoma. Two mutant CDK4 isoforms (R24C, R24L) similarly stimulated T cell responses in vitro and were analyzed as therapeutic targets for TCR gene therapy. In a syngeneic HLA-A2–transgenic mouse model of large established tumors, we found that both mutations differed dramatically as targets for TCR-modified T cells in vivo. While T cells expanded efficiently and produced IFN-γ in response to R24L, R24C failed to induce an effective antitumor response. Such differences in neoantigen quality might explain why cancer immunotherapy induces tumor regression in some individuals, while others do not respond, despite similar mutational load. We confirmed the validity of the in vivo model by showing that the melan-A–specific (MART-1–specific) TCR DMF5 induces rejection of tumors expressing analog, but not native, MART-1 epitopes. The described model allows identification of those neoantigens in human cancer that serve as suitable T cell targets and may help to predict clinical efficacy.

Authors

Matthias Leisegang, Thomas Kammertoens, Wolfgang Uckert, Thomas Blankenstein

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Figure 1

In vitro analysis suggests suitability of 2 different CDK4 epitopes as targets for TCR gene therapy.

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In vitro analysis suggests suitability of 2 different CDK4 epitopes as t...
(A) Nucleotide and amino acid sequences of CDK423–25 in melanoma cell lines. Mutations in codon 24 are indicated. (B) Percentages of human CD8+ and CD8 peripheral blood lymphocytes (PBLs) expressing 14/35 or a tyrosinase-specific TCR (anti-TYR). (C and D) IFN-γ secretion of human 14/35-expressing PBLs after coculture with (C) indicated melanoma cells or (D) T2 cells loaded with graded amounts of peptide (ACD, CDK423–32(24C); ALD, CDK423–32(24L); ARD, CDK423–32). WM-902B+A2 is an HLA-A2–transfected variant of HLA-A2 WM-902B melanoma cells. PBLs expressing a tyrosinase-specific TCR and/or unmodified PBLs were used as control. Data are means of duplicates ± mean deviation and representative of independent experiments (n = 4 [C]; n = 2 [D]) using PBLs of different donors. (E) HHD (HLA-A2) expression in MC703 cancer cells. (F) Antigen (GFP) expression in MC703-R24C and MC703-R24L tumor cells. (G) Percentage of 14/35-expressing HHD T cells (TCRvβ1) 10 days after retroviral transduction. (H) IFN-γ secretion of 14/35-expressing HHD T cells after coculture with MC703-R24C, MC703-R24L, and MC703-TYR tumor cells. HHD T cells either unmodified or expressing a tyrosinase-specific TCR were used as control. Data are means of duplicates ± mean deviation and representative of 3 independent experiments. ND, not detectable.