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Single-cell transcriptomes identify patient-tailored therapies for selective co-inhibition of cancer clones

Author

Listed:
  • Aleksandr Ianevski

    (University of Helsinki)

  • Kristen Nader

    (University of Helsinki)

  • Kyriaki Driva

    (University of Copenhagen)

  • Wojciech Senkowski

    (University of Copenhagen)

  • Daria Bulanova

    (University of Helsinki
    University of Copenhagen)

  • Lidia Moyano-Galceran

    (University of Copenhagen)

  • Tanja Ruokoranta

    (University of Helsinki
    Helsinki University Hospital Comprehensive Cancer Center)

  • Heikki Kuusanmäki

    (University of Helsinki
    University of Copenhagen
    Foundation for the Finnish Cancer Institute (FCI))

  • Nemo Ikonen

    (University of Helsinki)

  • Philipp Sergeev

    (University of Helsinki)

  • Markus Vähä-Koskela

    (University of Helsinki)

  • Anil K. Giri

    (University of Helsinki
    Foundation for the Finnish Cancer Institute (FCI))

  • Anna Vähärautio

    (Foundation for the Finnish Cancer Institute (FCI)
    University of Helsinki
    University of Helsinki and Helsinki University Hospital)

  • Mika Kontro

    (University of Helsinki
    Helsinki University Hospital Comprehensive Cancer Center
    Foundation for the Finnish Cancer Institute (FCI))

  • Kimmo Porkka

    (Helsinki University Hospital Comprehensive Cancer Center
    University of Helsinki and Helsinki University Hospital)

  • Esa Pitkänen

    (University of Helsinki
    University of Helsinki and Helsinki University Hospital
    University of Helsinki)

  • Caroline A. Heckman

    (University of Helsinki
    University of Helsinki and Helsinki University Hospital)

  • Krister Wennerberg

    (University of Copenhagen)

  • Tero Aittokallio

    (University of Helsinki
    University of Helsinki and Helsinki University Hospital
    Oslo University Hospital
    University of Oslo)

Abstract

Intratumoral cellular heterogeneity necessitates multi-targeting therapies for improved clinical benefits in advanced malignancies. However, systematic identification of patient-specific treatments that selectively co-inhibit cancerous cell populations poses a combinatorial challenge, since the number of possible drug-dose combinations vastly exceeds what could be tested in patient cells. Here, we describe a machine learning approach, scTherapy, which leverages single-cell transcriptomic profiles to prioritize multi-targeting treatment options for individual patients with hematological cancers or solid tumors. Patient-specific treatments reveal a wide spectrum of co-inhibitors of multiple biological pathways predicted for primary cells from heterogenous cohorts of patients with acute myeloid leukemia and high-grade serous ovarian carcinoma, each with unique resistance patterns and synergy mechanisms. Experimental validations confirm that 96% of the multi-targeting treatments exhibit selective efficacy or synergy, and 83% demonstrate low toxicity to normal cells, highlighting their potential for therapeutic efficacy and safety. In a pan-cancer analysis across five cancer types, 25% of the predicted treatments are shared among the patients of the same tumor type, while 19% of the treatments are patient-specific. Our approach provides a widely-applicable strategy to identify personalized treatment regimens that selectively co-inhibit malignant cells and avoid inhibition of non-cancerous cells, thereby increasing their likelihood for clinical success.

Suggested Citation

  • Aleksandr Ianevski & Kristen Nader & Kyriaki Driva & Wojciech Senkowski & Daria Bulanova & Lidia Moyano-Galceran & Tanja Ruokoranta & Heikki Kuusanmäki & Nemo Ikonen & Philipp Sergeev & Markus Vähä-Ko, 2024. "Single-cell transcriptomes identify patient-tailored therapies for selective co-inhibition of cancer clones," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-52980-5
    DOI: 10.1038/s41467-024-52980-5
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