Journal for ImmunoTherapy of Cancer (Apr 2024)

Respiratory complex I regulates dendritic cell maturation in explant model of human tumor immune microenvironment

  • Tuomo J Meretoja,
  • Ruixian Liu,
  • Diether Lambrechts,
  • Johanna Mattson,
  • Satu Mustjoki,
  • Päivi Saavalainen,
  • Bram Boeckx,
  • Maija Hollmen,
  • Rita Turpin,
  • Pauliina M Munne,
  • Aino Peura,
  • Jenna H Rannikko,
  • Gino Philips,
  • Natasha Salmelin,
  • Elina Hurskainen,
  • Ilida Suleymanova,
  • July Aung,
  • Elisa M Vuorinen,
  • Laura Lehtinen,
  • Minna Mutka,
  • Panu E Kovanen,
  • Laura Niinikoski,
  • Andrei Goga,
  • Jeroen Pouwels,
  • Juha Klefström

DOI
https://doi.org/10.1136/jitc-2023-008053
Journal volume & issue
Vol. 12, no. 4

Abstract

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Background Combining cytotoxic chemotherapy or novel anticancer drugs with T-cell modulators holds great promise in treating advanced cancers. However, the response varies depending on the tumor immune microenvironment (TIME). Therefore, there is a clear need for pharmacologically tractable models of the TIME to dissect its influence on mono- and combination treatment response at the individual level.Methods Here we establish a patient-derived explant culture (PDEC) model of breast cancer, which retains the immune contexture of the primary tumor, recapitulating cytokine profiles and CD8+T cell cytotoxic activity.Results We explored the immunomodulatory action of a synthetic lethal BCL2 inhibitor venetoclax+metformin drug combination ex vivo, discovering metformin cannot overcome the lymphocyte-depleting action of venetoclax. Instead, metformin promotes dendritic cell maturation through inhibition of mitochondrial complex I, increasing their capacity to co-stimulate CD4+T cells and thus facilitating antitumor immunity.Conclusions Our results establish PDECs as a feasible model to identify immunomodulatory functions of anticancer drugs in the context of patient-specific TIME.