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. 2025 Apr;6(4):682-701.
doi: 10.1038/s43018-025-00929-y. Epub 2025 Mar 28.

Systemic rewiring of dendritic cells by melanoma-secreted midkine impairs immune surveillance and response to immune checkpoint blockade

Xavier Catena  1 Marta Contreras-Alcalde  1 Naiara Juan-Larrea  1 Daniela Cerezo-Wallis  1   2 Tonantzin G Calvo  1 Cynthia Mucientes  1 David Olmeda  1   3 Javier Suárez  1 Sergio Oterino-Sogo  1 Lola Martínez  4 Diego Megías  5 David Sancho  6 Cristina Tejedo  1 Susana Frago  1 Diana Dudziak  7   8 Athanasios Seretis  9 Patrizia Stoitzner  9 María S Soengas  10
Affiliations

Systemic rewiring of dendritic cells by melanoma-secreted midkine impairs immune surveillance and response to immune checkpoint blockade

Xavier Catena et al. Nat Cancer. 2025 Apr.

Abstract

Cutaneous melanomas express a high number of potential neoepitopes, yet a substantial fraction of melanomas shift into immunologically cold phenotypes. Using cellular systems, mouse models and large datasets, we identify the tumor-secreted growth factor midkine (MDK) as a multilayered inhibitor of antigen-presenting cells. Mechanistically, MDK acts systemically in primary tumors, lymph nodes and the bone marrow, promoting a STAT3-mediated impairment of differentiation, activation and function of dendritic cells (DCs), particularly, conventional type 1 DCs (cDC1s). Furthermore, MDK rewires DCs toward a tolerogenic state, impairing CD8+ T cell activation. Downregulating MDK improves DC-targeted vaccination, CD40 agonist treatment and immune checkpoint blockade in mouse models. Moreover, we present an MDK-associated signature in DCs that defines poor prognosis and immune checkpoint blockade resistance in individuals with cancer. An inverse correlation between MDK- and cDC1-associated signatures was observed in a variety of tumor types, broadening the therapeutic implications of MDK in immune-refractory malignancies.

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Conflict of interest statement

Competing interests: The authors declare no competing interests.

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