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Targeting CXCL16 and STAT1 augments immune checkpoint blockade therapy in triple-negative breast cancer

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Listed:
  • Bhavana Palakurthi

    (College of Science, University of Notre Dame
    University of Notre Dame, 1234N. Notre Dame Avenue)

  • Shaneann R. Fross

    (College of Science, University of Notre Dame
    University of Notre Dame, 1234N. Notre Dame Avenue)

  • Ian H. Guldner

    (College of Science, University of Notre Dame
    University of Notre Dame, 1234N. Notre Dame Avenue)

  • Emilija Aleksandrovic

    (College of Science, University of Notre Dame
    University of Notre Dame, 1234N. Notre Dame Avenue)

  • Xiyu Liu

    (College of Science, University of Notre Dame
    University of Notre Dame, 1234N. Notre Dame Avenue)

  • Anna K. Martino

    (College of Science, University of Notre Dame)

  • Qingfei Wang

    (College of Science, University of Notre Dame
    University of Notre Dame, 1234N. Notre Dame Avenue)

  • Ryan A. Neff

    (College of Science, University of Notre Dame)

  • Samantha M. Golomb

    (College of Science, University of Notre Dame
    University of Notre Dame, 1234N. Notre Dame Avenue)

  • Cheryl Lewis

    (University of Texas Southwestern Medical Center)

  • Yan Peng

    (University of Texas Southwestern Medical Center)

  • Erin N. Howe

    (College of Science, University of Notre Dame
    University of Notre Dame, 1234N. Notre Dame Avenue)

  • Siyuan Zhang

    (College of Science, University of Notre Dame
    University of Notre Dame, 1234N. Notre Dame Avenue
    University of Texas Southwestern Medical Center
    Indiana University Melvin and Bren Simon Cancer Center)

Abstract

Chemotherapy prior to immune checkpoint blockade (ICB) treatment appears to improve ICB efficacy but resistance to ICB remains a clinical challenge and is attributed to highly plastic myeloid cells associating with the tumor immune microenvironment (TIME). Here we show by CITE-seq single-cell transcriptomic and trajectory analyses that neoadjuvant low-dose metronomic chemotherapy (MCT) leads to a characteristic co-evolution of divergent myeloid cell subsets in female triple-negative breast cancer (TNBC). Specifically, we identify that the proportion of CXCL16 + myeloid cells increase and a high STAT1 regulon activity distinguishes Programmed Death Ligand 1 (PD-L1) expressing immature myeloid cells. Chemical inhibition of STAT1 signaling in MCT-primed breast cancer sensitizes TNBC to ICB treatment, which underscores the STAT1’s role in modulating TIME. In summary, we leverage single-cell analyses to dissect the cellular dynamics in the tumor microenvironment (TME) following neoadjuvant chemotherapy and provide a pre-clinical rationale for modulating STAT1 in combination with anti-PD-1 for TNBC patients.

Suggested Citation

  • Bhavana Palakurthi & Shaneann R. Fross & Ian H. Guldner & Emilija Aleksandrovic & Xiyu Liu & Anna K. Martino & Qingfei Wang & Ryan A. Neff & Samantha M. Golomb & Cheryl Lewis & Yan Peng & Erin N. Howe, 2023. "Targeting CXCL16 and STAT1 augments immune checkpoint blockade therapy in triple-negative breast cancer," Nature Communications, Nature, vol. 14(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-37727-y
    DOI: 10.1038/s41467-023-37727-y
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    References listed on IDEAS

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