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An EBV-related CD4 TCR immunotherapy inhibits tumor growth in an HLA-DP5+ nasopharyngeal cancer mouse model
Chenwei Wang, Jiewen Chen, Jingyao Li, Zhihong Xu, Lihong Huang, Qian Zhao, Lei Chen, Xiaolong Liang, Hai Hu, Gang Li, Chengjie Xiong, Bin Wu, Hua You, Danyi Du, Xiaoling Wang, Hongle Li, Zibing Wang, Lin Chen
Chenwei Wang, Jiewen Chen, Jingyao Li, Zhihong Xu, Lihong Huang, Qian Zhao, Lei Chen, Xiaolong Liang, Hai Hu, Gang Li, Chengjie Xiong, Bin Wu, Hua You, Danyi Du, Xiaoling Wang, Hongle Li, Zibing Wang, Lin Chen
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Research Article Immunology

An EBV-related CD4 TCR immunotherapy inhibits tumor growth in an HLA-DP5+ nasopharyngeal cancer mouse model

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Abstract

Adoptive transfer of T cell receptor–engineered T cells (TCR-T) is a promising strategy for immunotherapy against solid tumors. However, the potential of CD4+ T cells in mediating tumor regression has been neglected. Nasopharyngeal cancer is consistently associated with EBV. Here, to evaluate the therapeutic potential of CD4 TCR-T in nasopharyngeal cancer, we screened for CD4 TCRs recognizing EBV nuclear antigen 1 (EBNA1) presented by HLA-DP5. Using mass spectrometry, we identified EBNA1567–581, a peptide naturally processed and presented by HLA-DP5. We isolated TCR135, a CD4 TCR with high functional avidity, that can function in both CD4+ and CD8+ T cells and recognizes HLA-DP5–restricted EBNA1567–581. TCR135-transduced T cells functioned in two ways: directly killing HLA-DP5+EBNA1+ tumor cells after recognizing EBNA1 presented by tumor cells and indirectly killing HLA-DP5–negative tumor cells after recognizing EBNA1 presented by antigen-presenting cells. TCR135-transduced T cells preferentially infiltrated into the tumor microenvironment and significantly inhibited tumor growth in xenograft nasopharyngeal tumor models. Additionally, we found that 62% of nasopharyngeal cancer patients showed 50%–100% expression of HLA-DP on tumor cells, indicating that nasopharyngeal cancer is well suited for CD4 TCR-T therapy. These findings suggest that TCR135 may provide a new strategy for EBV-related nasopharyngeal cancer immunotherapy in HLA-DP5+ patients.

Authors

Chenwei Wang, Jiewen Chen, Jingyao Li, Zhihong Xu, Lihong Huang, Qian Zhao, Lei Chen, Xiaolong Liang, Hai Hu, Gang Li, Chengjie Xiong, Bin Wu, Hua You, Danyi Du, Xiaoling Wang, Hongle Li, Zibing Wang, Lin Chen

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Figure 2

Identification of the endogenously presented epitope of EBNA1564–583.

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Identification of the endogenously presented epitope of EBNA1564–583.
(A...
(A) The percentage of ZsGreen expression in TCR135-transduced (TCR135) or non-transduced (TCRneg) JK4NF cells after coculture with 293T-CIITA-DP5-EBNA1, SNU-719-CIITA-EBNA1, or C666-1-EBNA1 tumor cells. 2-tailed unpaired Student’s t test, **P < 0.01, ****P < 0.0001. (B) The percentage of ZsGreen expression in TCR135-transduced JK4NF cells after coculture with the EBNA1564–583 peptide–pulsed DPA1*0202/DPB1*0501– or DPA1*0103/DPB1*0501–positive cells. EC50 values were determined using a nonlinear regression curve. (C) The percentage of ZsGreen expression in TCR135-transduced JK4NF cells after coculture with 293T-CIITA-DPA1*0202/DPB1*0501 or 293T-CIITA-DPA1*0103/DPB1*0501 transduced with (+EBNA1) or without (–EBNA1) EBNA1. 2-way ANOVA and Šidák’s multiple comparisons, ****P < 0.0001. (D) Identification of the minimal epitope of the EBNA1564–583 peptide recognized by TCR135. The right panel shows the functional avidity curve of TCR135-transduced JK4NF cells cocultured with 293T-CIITA-DP5 cells pulsed with the indicated overlapping peptides. The left panel shows the amino acid sequences of overlapping peptides. The red text shows the minimal epitope EBNA1573–581 recognized by TCR135. (E) The distribution of fragment ion intensity derived from EBNA1567–581 eluted from C666-1-EBNA1C–terminus cells (C666 Eluate) and its synthetic peptide. (F) Mirror plot displaying the MS2 spectra of the EBNA1567–581 eluted from C666-1-EBNA1C–terminus cells (C666 Eluate) and its synthetic peptide. Peaks represent b ions in blue and y ions in red.

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ISSN: 0021-9738 (print), 1558-8238 (online)

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