Nature Communications (May 2023)

Extracellular matrix educates an immunoregulatory tumor macrophage phenotype found in ovarian cancer metastasis

  • E. H. Puttock,
  • E. J. Tyler,
  • M. Manni,
  • E. Maniati,
  • C. Butterworth,
  • M. Burger Ramos,
  • E. Peerani,
  • P. Hirani,
  • V. Gauthier,
  • Y. Liu,
  • G. Maniscalco,
  • V. Rajeeve,
  • P. Cutillas,
  • C. Trevisan,
  • M. Pozzobon,
  • M. Lockley,
  • J. Rastrick,
  • H. Läubli,
  • A. White,
  • O. M. T. Pearce

DOI
https://doi.org/10.1038/s41467-023-38093-5
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 16

Abstract

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Abstract Recent studies have shown that the tumor extracellular matrix (ECM) associates with immunosuppression, and that targeting the ECM can improve immune infiltration and responsiveness to immunotherapy. A question that remains unresolved is whether the ECM directly educates the immune phenotypes seen in tumors. Here, we identify a tumor-associated macrophage (TAM) population associated with poor prognosis, interruption of the cancer immunity cycle, and tumor ECM composition. To investigate whether the ECM was capable of generating this TAM phenotype, we developed a decellularized tissue model that retains the native ECM architecture and composition. Macrophages cultured on decellularized ovarian metastasis shared transcriptional profiles with the TAMs found in human tissue. ECM-educated macrophages have a tissue-remodeling and immunoregulatory phenotype, inducing altered T cell marker expression and proliferation. We conclude that the tumor ECM directly educates this macrophage population found in cancer tissues. Therefore, current and emerging cancer therapies that target the tumor ECM may be tailored to improve macrophage phenotype and their downstream regulation of immunity.