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The tumour microenvironment shapes dendritic cell plasticity in a human organotypic melanoma culture

Author

Listed:
  • S. Blasio

    (Radboud University Medical Center
    The Francis Crick Institute)

  • G. F. Wigcheren

    (Radboud University Medical Center
    Oncode Institute)

  • A. Becker

    (Radboud University Medical Center)

  • A. Duffelen

    (Radboud University Medical Center
    Oncode Institute)

  • M. Gorris

    (Radboud University Medical Center)

  • K. Verrijp

    (Radboud University Medical Center
    Radboud University Medical Center)

  • I. Stefanini

    (The University of Warwick
    University of Turin)

  • G. J. Bakker

    (Radboud University Medical Center)

  • M. Bloemendal

    (Radboud University Medical Center
    Radboud University Medical Center)

  • A. Halilovic

    (Radboud University Medical Center
    Radboud University Medical Center)

  • A. Vasaturo

    (Radboud University Medical Center)

  • G. Bakdash

    (Radboud University Medical Center)

  • S. V. Hato

    (Radboud University Medical Center)

  • J. H. W. Wilt

    (Radboud University Medical Center)

  • J. Schalkwijk

    (Radboud University Medical Center)

  • I. J. M. Vries

    (Radboud University Medical Center)

  • J. C. Textor

    (Radboud University Medical Center)

  • E. H. Bogaard

    (Radboud University Medical Center)

  • M. Tazzari

    (Radboud University Medical Center
    Istituto Scientifico Romagnolo per lo Studio e la Cura dei Tumori (IRST) IRCCS)

  • C. G. Figdor

    (Radboud University Medical Center
    Oncode Institute)

Abstract

The tumour microenvironment (TME) forms a major obstacle in effective cancer treatment and for clinical success of immunotherapy. Conventional co-cultures have shed light onto multiple aspects of cancer immunobiology, but they are limited by the lack of physiological complexity. We develop a human organotypic skin melanoma culture (OMC) that allows real-time study of host-malignant cell interactions within a multicellular tissue architecture. By co-culturing decellularized dermis with keratinocytes, fibroblasts and immune cells in the presence of melanoma cells, we generate a reconstructed TME that closely resembles tumour growth as observed in human lesions and supports cell survival and function. We demonstrate that the OMC is suitable and outperforms conventional 2D co-cultures for the study of TME-imprinting mechanisms. Within the OMC, we observe the tumour-driven conversion of cDC2s into CD14+ DCs, characterized by an immunosuppressive phenotype. The OMC provides a valuable approach to study how a TME affects the immune system.

Suggested Citation

  • S. Blasio & G. F. Wigcheren & A. Becker & A. Duffelen & M. Gorris & K. Verrijp & I. Stefanini & G. J. Bakker & M. Bloemendal & A. Halilovic & A. Vasaturo & G. Bakdash & S. V. Hato & J. H. W. Wilt & J., 2020. "The tumour microenvironment shapes dendritic cell plasticity in a human organotypic melanoma culture," Nature Communications, Nature, vol. 11(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-16583-0
    DOI: 10.1038/s41467-020-16583-0
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