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TROP2 targeting reveals therapy-driven cell state dynamics in colorectal cancer.

Nuria Vaquero-Siguero ,
Nikolaos Georgakopoulos ,
Maria C Puschhof ,
Ioannis Chiotakakos ,
Jasmin Meier ,
Sigrid K Fey ,
Gabriele Diamante ,
Manuel Mastel ,
Aitana Guiseris-Martinez ,
Guillaume Belthier ,
Nikolai Schleußner ,
Julia Volk ,
Carolin Artmann ,
Bryce Lim ,
Ronald Koschny ,
Cyrill Wehling ,
Kyanna S Ouyang ,
Michael Günther ,
Solveig Kuss ,
Paula Hoffmeister ,
Moritz Mall ,
Jens Neumann ,
Steffen Ormanns ,
Martin Schneider ,
Thomas Schmidt ,
Jens Puschhof ,
Andreas Trumpp ,
Jacco van Rheenen ,
Julio Saez-Rodriguez ,
Bruno C Köhler ,
Rene Jackstadt

Abstract

Metastasis remains the leading cause of cancer-related mortality and is driven by pronounced tumour cell plasticity1. Here we identify the transmembrane glycoprotein trophoblast cell-surface antigen 2 (TROP2) as a marker of poor-prognosis colorectal cancer (CRC) associated with WNTlow, fetal-like tumour cell states that are linked to metastasis and therapy resistance. Functional analyses demonstrate that TROP2+ cells exhibit context-dependent stem-like capacity and the ability to initiate metastatic outgrowth. Given that these detrimental tumour states converge on the cell-surface antigen TROP2, we explored therapeutic targeting of this cell population using clinically relevant TROP2-directed antibody-drug conjugates. Time-resolved analyses reveal therapy-associated dynamics in tumour cell state composition between WNThi LGR5+ states and WNTlowTROP2+ fetal-like states. Conventional chemotherapy promotes the induction of TROP2-expressing cells, whereas TROP2 antibody-drug conjugates selectively target these populations and remodel the tumour cell state landscape. Exploiting this plasticity, combined chemotherapy and TROP2 targeting enhances anti-tumour efficacy in patient-derived models. Together, our findings identify TROP2 as a therapeutic vulnerability of CRC and highlight the importance of targeting tumour cell states to improve therapeutic efficacy and overcome resistance in advanced disease.

More about this publication

Nature

Publication date 01-07-2026

Full text links

Publisher website (DOI) 10.1038/s41586-026-10705-2
Europe PubMed Central 42386981
Pubmed 42386981

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