In vivo dendritic cell reprogramming for cancer immunotherapy

Ervin Ascic; Fritiof Åkerström; M. Nair; André Rosa; Ilia Kurochkin; Olga Zimmermannová; Xavier Catena; Nadezhda Rotankova; Charlotte Veser; Michał Rudnik; Tommaso Ballocci; Tiffany Schärer; Xiaoli Huang; M. Torres; Emilie Renaud; Marta Velasco Santiago; Özcan Met; David Askmyr; Malin Lindstedt; Lennart Greiff; Laure‐Anne Ligeon; Irina Agarkova; Inge Marie Svane; Cristiana F. Pires; Fábio F. Rosa; Carlos‐Filipe Pereira

doi:10.1126/science.adn9083

In vivo dendritic cell reprogramming for cancer immunotherapy

Ervin Ascic(Lund University), Fritiof Åkerström(Medicon Village), M. Nair(Lund University), André Rosa(Medicon Village), Ilia Kurochkin(Lund University), Olga Zimmermannová(Lund University), Xavier Catena(Lund University), Nadezhda Rotankova(Inspire), Charlotte Veser(Inspire), Michał Rudnik(Inspire), Tommaso Ballocci(Lund University), Tiffany Schärer(Medicon Village), Xiaoli Huang(Medicon Village), M. Torres(Lund University), Emilie Renaud(Medicon Village), Marta Velasco Santiago(Herlev Hospital), Özcan Met(Herlev Hospital), David Askmyr(Lund University), Malin Lindstedt(Medicon Village), Lennart Greiff(Lund University), Laure‐Anne Ligeon(Inspire), Irina Agarkova(Inspire), Inge Marie Svane(Herlev Hospital), Cristiana F. Pires(Medicon Village), Fábio F. Rosa(Medicon Village), Carlos‐Filipe Pereira(Lund University)

Science

September 5, 2024

10.1126/science.adn9083

Cited by 113Open Access

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Abstract

Immunotherapy can lead to long-term survival for some cancer patients, yet generalized success has been hampered by insufficient antigen presentation and exclusion of immunogenic cells from the tumor microenvironment. Here, we developed an approach to reprogram tumor cells in vivo by adenoviral delivery of the transcription factors PU.1, IRF8, and BATF3, which enabled them to present antigens as type 1 conventional dendritic cells. Reprogrammed tumor cells remodeled their tumor microenvironment, recruited, and expanded polyclonal cytotoxic T cells; induced tumor regressions; and established long-term systemic immunity in multiple mouse melanoma models. In human tumor spheroids and xenografts, reprogramming to immunogenic dendritic-like cells progressed independently of immunosuppression, which usually limits immunotherapy. Our study paves the way for human clinical trials of in vivo immune cell reprogramming for cancer immunotherapy.

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