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Chemotherapy induces dynamic immune responses in breast cancers that impact treatment outcome

Author

Listed:
  • Yeon Hee Park

    (Samsung Medical Center)

  • Samir Lal

    (Oncology Research & Development, Pfizer)

  • Jeong Eon Lee

    (Samsung Medical Center)

  • Yoon-La Choi

    (Samsung Medical Center)

  • Ji Wen

    (Oncology Research & Development, Pfizer)

  • Sripad Ram

    (Drug Safety R&D, Pfizer)

  • Ying Ding

    (Oncology Research & Development, Pfizer)

  • Soo-Hyeon Lee

    (Pfizer Oncology)

  • Eric Powell

    (Oncology Research & Development, Pfizer)

  • Se Kyung Lee

    (Samsung Medical Center)

  • Jong Han Yu

    (Samsung Medical Center)

  • Keith A. Ching

    (Oncology Research & Development, Pfizer)

  • Jae-Yong Nam

    (Samsung Medical Center)

  • Seok Won Kim

    (Samsung Medical Center)

  • Seok Jin Nam

    (Samsung Medical Center)

  • Ji-Yeon Kim

    (Samsung Medical Center)

  • Soo Youn Cho

    (Samsung Medical Center)

  • Seri Park

    (Samsung Medical Center)

  • Jinho Kim

    (Samsung Genome Institute, Samsung Medical Center)

  • Soohyn Hwang

    (Samsung Medical Center)

  • Yu Jin Kim

    (Samsung Medical Center)

  • Vinicius Bonato

    (Biostatistics, Pfizer)

  • Diane Fernandez

    (Oncology Research & Development, Pfizer)

  • Shibing Deng

    (Biostatistics, Pfizer)

  • Shuoguo Wang

    (Oncology Research & Development, Pfizer)

  • Hyuntae Shin

    (Samsung Genome Institute, Samsung Medical Center)

  • Eun-Suk Kang

    (Samsung Medical Center)

  • Woong-Yang Park

    (Samsung Genome Institute, Samsung Medical Center)

  • Paul A. Rejto

    (Oncology Research & Development, Pfizer)

  • Jadwiga Bienkowska

    (Oncology Research & Development, Pfizer)

  • Zhengyan Kan

    (Oncology Research & Development, Pfizer)

Abstract

To elucidate the effects of neoadjuvant chemotherapy (NAC), we conduct whole transcriptome profiling coupled with histopathology analyses of a longitudinal breast cancer cohort of 146 patients including 110 pairs of serial tumor biopsies collected before treatment, after the first cycle of treatment and at the time of surgery. Here, we show that cytotoxic chemotherapies induce dynamic changes in the tumor immune microenvironment that vary by subtype and pathologic response. Just one cycle of treatment induces an immune stimulatory microenvironment harboring more tumor infiltrating lymphocytes (TILs) and up-regulation of inflammatory signatures predictive of response to anti-PD1 therapies while residual tumors are immune suppressed at end-of-treatment compared to the baseline. Increases in TILs and CD8+ T cell proportions in response to NAC are independently associated with pathologic complete response. Further, on-treatment immune response is more predictive of treatment outcome than immune features in paired baseline samples although these are strongly correlated.

Suggested Citation

  • Yeon Hee Park & Samir Lal & Jeong Eon Lee & Yoon-La Choi & Ji Wen & Sripad Ram & Ying Ding & Soo-Hyeon Lee & Eric Powell & Se Kyung Lee & Jong Han Yu & Keith A. Ching & Jae-Yong Nam & Seok Won Kim & S, 2020. "Chemotherapy induces dynamic immune responses in breast cancers that impact treatment outcome," Nature Communications, Nature, vol. 11(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-19933-0
    DOI: 10.1038/s41467-020-19933-0
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    Cited by:

    1. Sandra Tietscher & Johanna Wagner & Tobias Anzeneder & Claus Langwieder & Martin Rees & Bettina Sobottka & Natalie Souza & Bernd Bodenmiller, 2023. "A comprehensive single-cell map of T cell exhaustion-associated immune environments in human breast cancer," Nature Communications, Nature, vol. 14(1), pages 1-20, December.

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