Multiple cancer-specific antigens are targeted by a chimeric antigen receptor on a single cancer cell
Yanran He, Karin Schreiber, Steven P. Wolf, Frank Wen, Catharina Steentoft, Jonathan Zerweck, Madeline Steiner, Preeti Sharma, H. Michael Shepard, Avery Posey, Carl H. June, Ulla Mandel, Henrik Clausen, Matthias Leisegang, Stephen C. Meredith, David M. Kranz, Hans Schreiber
Yanran He, Karin Schreiber, Steven P. Wolf, Frank Wen, Catharina Steentoft, Jonathan Zerweck, Madeline Steiner, Preeti Sharma, H. Michael Shepard, Avery Posey, Carl H. June, Ulla Mandel, Henrik Clausen, Matthias Leisegang, Stephen C. Meredith, David M. Kranz, Hans Schreiber
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Research Article Immunology

Multiple cancer-specific antigens are targeted by a chimeric antigen receptor on a single cancer cell

Abstract

Human cancer cells were eradicated by adoptive transfer of T cells transduced with a chimeric antigen receptor (CAR) made from an antibody (237Ab) that is highly specific for the murine Tn-glycosylated podoplanin (Tn-PDPN). The objectives were to determine the specificity of these CAR-transduced T (CART) cells and the mechanism for the absence of relapse. We show that although the 237Ab bound only to cell lines expressing murine Tn-PDPN, the 237Ab-derived 237CART cells lysed multiple different human and murine cancers not predicted by the 237Ab binding. Nevertheless, the 237CART cell reactivities remained cancer specific because all recognitions were dependent on the Tn glycosylation that resulted from COSMC mutations that were not present in normal tissues. While Tn was required for the recognition by 237CART, Tn alone was not sufficient for 237CART cell activation. Activation of 237CART cells required peptide backbone recognition but tolerated substitutions of up to 5 of the 7 amino acid residues in the motif recognized by 237Ab. Together, these findings demonstrate what we believe is a new principle whereby simultaneous recognition of multiple independent Tn-glycopeptide antigens on a cancer cell makes tumor escape due to antigen loss unlikely.

Authors

Yanran He, Karin Schreiber, Steven P. Wolf, Frank Wen, Catharina Steentoft, Jonathan Zerweck, Madeline Steiner, Preeti Sharma, H. Michael Shepard, Avery Posey, Carl H. June, Ulla Mandel, Henrik Clausen, Matthias Leisegang, Stephen C. Meredith, David M. Kranz, Hans Schreiber

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Figure 5

Recognition by 237CART cells is more permissive to amino acid residue substitutions and truncations of the Tn-glycopeptide epitope than that by 237Ab.

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Recognition by 237CART cells is more permissive to amino acid residue su...
Biotinylated peptides immobilized on a streptavidin-coated plate surface at the indicated coating concentrations were tested for binding by 237Ab measured by light absorption at 450 nm, or stimulation of 237CART cells measured by the level of IFN-γ secretion after 24 hours of coincubation. The Tn-glycosylated Thr77 of murine PDPN is labeled in red, while the alanine scanning of the original murine PDPN sequence is labeled in green. Top panel: Alanine scanning of the 237Ab-binding epitope, 1 amino acid residue at a time. Middle panel: Alanine scanning of the 237Ab-binding epitope in murine PDPN with an increasing number of residues at a time. Bottom panel: The gradual truncation of the 237Ab-binding epitope from the C-terminus. Mean ± SEM, n = 3 from 3 independent experiments. The significance of the difference between each group at the highest peptide coating concentration in comparison to that of the non–Tn-glycosylated GTKPPLEE group was examined by 1-way ANOVA followed by Dunnett’s test. ns indicates P > 0.05; *P ≤ 0.05, **P ≤ 0.01, ***P ≤ 0.001, ****P ≤ 0.0001.