Response to tumor-infiltrating lymphocyte adoptive therapy is associated with preexisting CD8 <sup>+</sup> T-myeloid cell networks in melanoma

David Barras(Ludwig Cancer Research), Eleonora Ghisoni(Ludwig Cancer Research), Johanna Chiffelle(Ludwig Cancer Research), Angela Orcurto(Ludwig Cancer Research), Julien Dagher(University of Lausanne), Noémie Fahr(Ludwig Cancer Research), Fabrizio Benedetti(Ludwig Cancer Research), Isaac Crespo(Ludwig Cancer Research), Alizée J Grimm(Ludwig Cancer Research), Matteo Morotti(Ludwig Cancer Research), Stefan Zimmermann(Ludwig Cancer Research), Rafael Durán(University of Lausanne), Martina Imbimbo(Ludwig Cancer Research), María Ochoa-de-Olza(Ludwig Cancer Research), Blanca Navarro(Ludwig Cancer Research), Krisztián Homicskó(Ludwig Cancer Research), Sara Bobisse(Ludwig Cancer Research), Danny Labes(University of Lausanne), Zoe Tsourti(Space Hellas (Greece)), Charitini Andriakopoulou(Space Hellas (Greece)), Fernanda Herrera(Ludwig Cancer Research), Rémy Pétremand(Ludwig Cancer Research), Reinhard Dummer(University Hospital of Zurich), Grégoire Berthod(University of Lausanne), Anne I. Kraemer(Ludwig Cancer Research), Florian Huber(Ludwig Cancer Research), Jonathan Thévenet(Ludwig Cancer Research), Michal Bassani‐Sternberg(Ludwig Cancer Research), Niklaus Schaefer(University of Lausanne), John O. Prior(University of Lausanne), Maurice Matter(University of Lausanne), Veronica Aedo(University of Lausanne), Clarisse Dromain(University of Lausanne), Jesús Corría-Osorio(Ludwig Cancer Research), Stéphanie Tissot(Ludwig Cancer Research), Lana E. Kandalaft(Ludwig Cancer Research), Raphaël Gottardo(SIB Swiss Institute of Bioinformatics), Mikaël J. Pittet(University of Geneva), Christine Sempoux(University of Lausanne), Olivier Michielin(Ludwig Cancer Research), Urania Dafni(National and Kapodistrian University of Athens), Lionel Trueb(Ludwig Cancer Research), Alexandre Harari(Ludwig Cancer Research), Denarda Dangaj Laniti(Ludwig Cancer Research), George Coukos(Ludwig Cancer Research)
Science Immunology
February 2, 2024
10.1126/sciimmunol.adg7995
Cited by 85Open Access
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Abstract

Adoptive cell therapy (ACT) using ex vivo–expanded tumor-infiltrating lymphocytes (TILs) can eliminate or shrink metastatic melanoma, but its long-term efficacy remains limited to a fraction of patients. Using longitudinal samples from 13 patients with metastatic melanoma treated with TIL-ACT in a phase 1 clinical study, we interrogated cellular states within the tumor microenvironment (TME) and their interactions. We performed bulk and single-cell RNA sequencing, whole-exome sequencing, and spatial proteomic analyses in pre- and post-ACT tumor tissues, finding that ACT responders exhibited higher basal tumor cell–intrinsic immunogenicity and mutational burden. Compared with nonresponders, CD8 + TILs exhibited increased cytotoxicity, exhaustion, and costimulation, whereas myeloid cells had increased type I interferon signaling in responders. Cell-cell interaction prediction analyses corroborated by spatial neighborhood analyses revealed that responders had rich baseline intratumoral and stromal tumor–reactive T cell networks with activated myeloid populations. Successful TIL-ACT therapy further reprogrammed the myeloid compartment and increased TIL-myeloid networks. Our systematic target discovery study identifies potential T-myeloid cell network–based biomarkers that could improve patient selection and guide the design of ACT clinical trials.

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