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Spatial immunophenotypes predict response to anti-PD1 treatment and capture distinct paths of T cell evasion in triple negative breast cancer

Author

Listed:
  • Dora Hammerl

    (Erasmus MC Cancer Institute)

  • John W. M. Martens

    (Erasmus MC Cancer Institute)

  • Mieke Timmermans

    (Erasmus MC Cancer Institute)

  • Marcel Smid

    (Erasmus MC Cancer Institute)

  • Anita M. Trapman-Jansen

    (Erasmus MC Cancer Institute)

  • Renée Foekens

    (Erasmus MC Cancer Institute)

  • Olga I. Isaeva

    (The Netherlands Cancer Institute
    The Netherlands Cancer Institute)

  • Leonie Voorwerk

    (The Netherlands Cancer Institute)

  • Hayri E. Balcioglu

    (Erasmus MC Cancer Institute)

  • Rebecca Wijers

    (Erasmus MC Cancer Institute)

  • Iris Nederlof

    (The Netherlands Cancer Institute)

  • Roberto Salgado

    (GZA-ZNA Ziekenhuizen
    Peter Mac Callum Cancer Center)

  • Hugo Horlings

    (The Netherlands Cancer Institute
    The Netherlands Cancer Institute)

  • Marleen Kok

    (The Netherlands Cancer Institute
    The Netherlands Cancer Institute)

  • Reno Debets

    (Erasmus MC Cancer Institute)

Abstract

Only a subgroup of triple-negative breast cancer (TNBC) responds to immune checkpoint inhibitors (ICI). To better understand lack of response to ICI, we analyze 681 TNBCs for spatial immune cell contextures in relation to clinical outcomes and pathways of T cell evasion. Excluded, ignored and inflamed phenotypes can be captured by a gene classifier that predicts prognosis of various cancers as well as anti-PD1 response of metastatic TNBC patients in a phase II trial. The excluded phenotype, which is associated with resistance to anti-PD1, demonstrates deposits of collagen-10, enhanced glycolysis, and activation of TGFβ/VEGF pathways; the ignored phenotype, also associated with resistance to anti-PD1, shows either high density of CD163+ myeloid cells or activation of WNT/PPARγ pathways; whereas the inflamed phenotype, which is associated with response to anti-PD1, revealed necrosis, high density of CLEC9A+ dendritic cells, high TCR clonality independent of neo-antigens, and enhanced expression of T cell co-inhibitory receptors.

Suggested Citation

  • Dora Hammerl & John W. M. Martens & Mieke Timmermans & Marcel Smid & Anita M. Trapman-Jansen & Renée Foekens & Olga I. Isaeva & Leonie Voorwerk & Hayri E. Balcioglu & Rebecca Wijers & Iris Nederlof & , 2021. "Spatial immunophenotypes predict response to anti-PD1 treatment and capture distinct paths of T cell evasion in triple negative breast cancer," Nature Communications, Nature, vol. 12(1), pages 1-13, December.
  • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-25962-0
    DOI: 10.1038/s41467-021-25962-0
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    Cited by:

    1. Nandini Pal Basak & Kowshik Jaganathan & Biswajit Das & Oliyarasi Muthusamy & Rajashekar M & Ritu Malhotra & Amit Samal & Moumita Nath & Ganesh MS & Amritha Prabha Shankar & Prakash BV & Vijay Pillai , 2024. "Tumor histoculture captures the dynamic interactions between tumor and immune components in response to anti-PD1 in head and neck cancer," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    2. Weiyue Zheng & Wanda Marini & Kiichi Murakami & Valentin Sotov & Marcus Butler & Chiara Gorrini & Pamela S. Ohashi & Michael Reedijk, 2024. "Caspase-1-dependent spatiality in triple-negative breast cancer and response to immunotherapy," Nature Communications, Nature, vol. 15(1), pages 1-13, December.

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