TCR-engineered T-cells directed against Ropporin-1 constitute a safe and effective treatment for triple-negative breast cancer in near-clinical models

Author:

Kortleve DianORCID,Hammerl DoraORCID,Brakel Mandy v,Wijers Rebecca,Roelofs Daphne,Kroese Kim,Timmermans Mieke,Liao Chen-YiORCID,Trapman-Jansen Anita,Foekens Renée,Michaux Justine,de Beijer Monique,Buschow Sonja I.ORCID,Demmers Jeroen A.A.ORCID,Kok MarleenORCID,Danen Erik H.J.ORCID,Bassani-Sternberg MichalORCID,Martens John W.ORCID,Abbott Rachel J.M.ORCID,Debets RenoORCID

Abstract

AbstractTriple-negative breast cancer (TNBC) shows an urgent need for new therapies. We discovered Ropporin-1 (ROPN1) as a target to treat TNBC with T-cells. ROPN1 showed high and homogenous expression in 90% of primary and metastatic TNBC but not in healthy tissues. HLA-A2-binding peptides were detected via immunopeptidomics and predictions and used to retrieve T-cell receptors (TCRs) from naïve repertoires. Following gene introduction into T-cells and stringent selection, we retrieved a highly specific TCR directed against the epitope FLYTYIAKV that did not recognize non-cognate epitopes from alternative source proteins. Notably, this TCR mediated killing of three-dimensional tumoroidsin vitroand tumor cellsin vivoand outperformed standard-of-care drugs. Finally, the T-cell product expressing this TCR and manufactured using a clinical protocol fulfilled standard safety and efficacy assays. Collectively, we have identified and preclinically validated ROPN1 as a target and anti-ROPN1 TCR T-cells as a treatment for the vast majority of TNBC patients.

Publisher

Cold Spring Harbor Laboratory

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