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A platform for parallel TCR cloning and testing enables anti-neoantigen tumor immunotherapy
Alexander M. Rowe, Smriti Chaurasia, Wenzhong Wei, Laura García-Diéguez, Katherine Tempro, Johnathon G. Schiebel, Christy Smolak, Alexander Muralles, Daniel Wikenheiser, Kevin Quann, Collin Pirner, Kentin Codispot, Mark J. Shlomchik, Warren D. Shlomchik
Alexander M. Rowe, Smriti Chaurasia, Wenzhong Wei, Laura García-Diéguez, Katherine Tempro, Johnathon G. Schiebel, Christy Smolak, Alexander Muralles, Daniel Wikenheiser, Kevin Quann, Collin Pirner, Kentin Codispot, Mark J. Shlomchik, Warren D. Shlomchik
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Research Article Immunology Oncology

A platform for parallel TCR cloning and testing enables anti-neoantigen tumor immunotherapy

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Abstract

Tumor-infiltrating CD8 cells recognize neoantigens created by tumor-specific mutations. Nonetheless, even after checkpoint inhibitor therapy, most patients’ tumors progress. A deeper understanding of antitumor responses could facilitate development of better therapies. To enable such studies, we applied TCXpress, a high throughput platform that clones fully expressible TCRs from single cells into retroviral or lentiviral vectors without sequencing or gene synthesis, to study TCRs from CD8 cells infiltrating mouse MC38 tumors. We expressed cloned TCRs in reporter cells and interrogated TCR specificity by coculturing them with B6WT3 cells transduced with tandem minigenes encoding predicted neoantigens. We isolated TCRs reactive against epitopes from mutant Rpl18, Adpgk, Psmd2, and Zc3h7b along with self-reactive TCRs that recognized normal B6 and MC38 cells. Importantly, we successfully treated MC38-bearing mice with T cells transduced with anti-Rpl18 TCRs. These results establish a system that could be used to study many types of T cell responses and validate a therapeutic approach that could be tested in the clinic.

Authors

Alexander M. Rowe, Smriti Chaurasia, Wenzhong Wei, Laura García-Diéguez, Katherine Tempro, Johnathon G. Schiebel, Christy Smolak, Alexander Muralles, Daniel Wikenheiser, Kevin Quann, Collin Pirner, Kentin Codispot, Mark J. Shlomchik, Warren D. Shlomchik

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Figure 1

MC38 tumor establishment and cloning of TCRs from single cell–sorted tumor-infiltrating CD8 cells.

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MC38 tumor establishment and cloning of TCRs from single cell–sorted tum...
(A) B6 mice were injected intradermally with 5 × 105 MC38 cells and monitored for tumor growth. (B) Four weeks later, tumors from mouse 1 and 5 were harvested and digested and CD45+CD8+ CD44+TCRβ+CD11b–CD4– cells were single cell–sorted for cloning. Sorted cells are depicted in red; percentages in gates are from an analytic sample collected just prior to sorting. PD-1 expression was captured but was not a sort-parameter. The TCXpress process is shown in (C). cDNA is generated within each well followed by first round amplification of the TCRα and TCRβ variable regions. The product is split, and TCRα and TCRβ chains are separately amplified, simultaneously adding ends for Gibson cloning. These are assembled with a TCRα constant region (TRAC) fragment and an MSCV-based vector that includes the TCRβ constant region (TRBC). Compatible Gibson cloning ends are color coded. E. coli are transformed with the Gibson product, followed by plasmid and retrovirus generation. (D) TCRβ and mCherry expression of Jurkat cell lines transduced with TCRs J8, J9, J10, and J11 before and after puromycin selection. J8 did not express a functional TCR despite puromycin enriching for mCherry+ cells. (E) Heatmaps representing percentages of TCRβ+ cells for each TCR-transduced Jurkat culture, before and after puromycin selection. Flow cytometry data from Jurkat lines in the red boxes are shown in D.

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ISSN 2379-3708

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