Enhanced detection of neoantigen-reactive T cells targeting unique and shared oncogenes for personalized cancer immunotherapy
Rami Yossef, Eric Tran, Drew C. Deniger, Alena Gros, Anna Pasetto, Maria R. Parkhurst, Jared J. Gartner, Todd D. Prickett, Gal Cafri, Paul F. Robbins, Steven A. Rosenberg
Rami Yossef, Eric Tran, Drew C. Deniger, Alena Gros, Anna Pasetto, Maria R. Parkhurst, Jared J. Gartner, Todd D. Prickett, Gal Cafri, Paul F. Robbins, Steven A. Rosenberg
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Resource and Technical Advance Immunology

Enhanced detection of neoantigen-reactive T cells targeting unique and shared oncogenes for personalized cancer immunotherapy

Abstract

Adoptive cell transfer (ACT) of tumor-infiltrating lymphocytes (TILs) targeting neoantigens can mediate tumor regression in selected patients with metastatic epithelial cancer. However, effectively identifying and harnessing neoantigen-reactive T cells for patient treatment remains a challenge and it is unknown whether current methods to detect neoantigen-reactive T cells are missing potentially clinically relevant neoantigen reactivities. We thus investigated whether the detection of neoantigen-reactive TILs could be enhanced by enriching T cells that express PD-1 and/or T cell activation markers followed by microwell culturing to avoid overgrowth of nonreactive T cells. In 6 patients with metastatic epithelial cancer, this method led to the detection of CD4+ and CD8+ T cells targeting 18 and 1 neoantigens, respectively, compared with 6 and 2 neoantigens recognized by CD4+ and CD8+ T cells, respectively, when using our standard TIL fragment screening approach. In 2 patients, no recognition of mutated peptides was observed using our conventional screen, while our high-throughput approach led to the identification of 5 neoantigen-reactive T cell receptors (TCRs) against 5 different mutations from one patient and a highly potent MHC class II–restricted KRASG12V-reactive TCR from a second patient. In addition, in a metastatic tumor sample from a patient with serous ovarian cancer, we isolated 3 MHC class II–restricted TCRs targeting the TP53G245S hot-spot mutation. In conclusion, this approach provides a highly sensitive platform to isolate clinically relevant neoantigen-reactive T cells or their TCRs for cancer treatment.

Authors

Rami Yossef, Eric Tran, Drew C. Deniger, Alena Gros, Anna Pasetto, Maria R. Parkhurst, Jared J. Gartner, Todd D. Prickett, Gal Cafri, Paul F. Robbins, Steven A. Rosenberg

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Figure 4

Isolation and characterization of 3 TP53G245S neoantigen-reactive TCRs from Pt.4127 sorted TIL microwell cultures.

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Isolation and characterization of 3 TP53G245S neoantigen-reactive TCRs f...
TILs from tumor digest were sorted and expanded based on the expression of PD-1 and/or CD134. (A) Cells from 2 cultures were combined and cocultured with DCs that were pulsed with pools of mutated peptides. Showing cultures displayed enhanced IFN-γ secretion against peptide pools 9 and 10 (pool 9 encompassing TP53 mutated peptide) in (B) IFN-γ ELISPOT assay at 16 hours. Following expansion, 2 × 104 cells from individual TIL cultures that showed specific reactivity against peptide pool 9 (not shown) were cocultured with 1 × 105 DCs pulsed with single peptides present in the pool. (C and D) TCRs targeting TP53G245S were sequenced, synthesized, and virally delivered into allogeneic PBMCs to assess reactivity and specificity. (C) TCR-transduced cells were coincubated with COS7 cells that were transfected with plasmids encoding the patient’s HLA class II and pulsed with mutated 25mers. (D) Cells were coincubated with autologous DCs pulsed with serially diluted TP53G245S and WT peptides. ‘>’ denotes greater than 500 spots. All data are representative of at least 2 independent experiments except in A.