Soft matrix promotes immunosuppression in tumor-resident immune cells via COX-FGF2 signaling

Peura, Aino; Turpin, Rita; Liu, Ruixian; Heilala, Maria; Salmela, Maria; Aung, July; Mikkonen, Piia; Mutka, Minna; Kovanen, Panu E.; Niinikoski, Laura; Meretoja, Tuomo; Mattson, Johanna; Heikkilä, Päivi; Palanne, Päivi; Kantanen, Tiina; Kilpeläinen, Mikko; Ukkonen, Outi; Hollmen, Maija; Tervonen, Topi A.; Klefström, Juha; Munne, Pauliina M.
Soft matrix promotes immunosuppression in tumor-resident immune cells via COX-FGF2 signaling

Peura, Aino
Turpin, Rita
Liu, Ruixian
Heilala, Maria
Salmela, Maria
Aung, July
Mikkonen, Piia
Mutka, Minna
Kovanen, Panu E.
Niinikoski, Laura
Meretoja, Tuomo
Mattson, Johanna
Heikkilä, Päivi
Palanne, Päivi
Kantanen, Tiina
Kilpeläinen, Mikko
Ukkonen, Outi
Hollmen, Maija
Tervonen, Topi A.
Klefström, Juha
Munne, Pauliina M.
Katso/Avaa
Lataukset: 

Springer Science and Business Media LLC
doi:10.1038/s41467-025-60092-x
URI
https://doi.org/10.1038/s41467-025-60092-x
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Julkaisun pysyvä osoite on:
https://urn.fi/URN:NBN:fi-fe2025082785654
Tiivistelmä
Mechanical forces of the tumor microenvironment change dynamically during key events of tumorigenesis such as invasion and metastasis. These changes in compressive forces often affect the breast cancer cell phenotype. However, it is lesser known how these dynamic mechanical forces in the tumor microenvironment affect the phenotypes of tumor infiltrated leukocytes (TIL) and their subsequent anticancer activities. Here we find, in primary patient-derived explant cultures (PDEC) containing resident TILs, that low compression promotes a change in the original identity of breast cancer cells from luminal to a more mesenchymal and undifferentiated state. These altered tumor cells induce an upregulation of immunosuppressive cytokines such as interleukin-10 (IL-10) and Transforming Growth Factor Beta (TGF-beta), as well as polarization of macrophages towards pro-tumor M2(Gc)-type and depletion of CD8+ effector memory T-cells. These immunosuppressive events are mediated by tumor cell derived fibroblast growth factor 2 (FGF2) and prostaglandin E2 (PGE2). We also find that FGF2 rich areas in primary tumors show enrichment in M2-like-macrophages and diminished numbers of CD8 + T and B-cells. Our results suggest that low compressive forces in the tumor microenvironment induce local immunosuppression via FGF2 secretion arising from phenotypic plasticity of tumor cells.
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