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Integration of single-cell transcriptomes and biological function reveals distinct behavioral patterns in bone marrow endothelium

Author

Listed:
  • Young-Woong Kim

    (Beckman Research Institute, City of Hope
    Center for Genome Engineering, Institute for Basic Science)

  • Greta Zara

    (Beckman Research Institute, City of Hope)

  • HyunJun Kang

    (Beckman Research Institute, City of Hope)

  • Sergio Branciamore

    (Beckman Research Institute, City of Hope)

  • Denis O’Meally

    (Beckman Research Institute, City of Hope)

  • Yuxin Feng

    (Cincinnati Children’s Hospital Medical Center)

  • Chia-Yi Kuan

    (University of Virginia School of Medicine)

  • Yingjun Luo

    (Beckman Research Institute, City of Hope)

  • Michael S. Nelson

    (Beckman Research Institute, City of Hope)

  • Alex B. Brummer

    (Beckman Research Institute, City of Hope
    College of Charleston)

  • Russell Rockne

    (Beckman Research Institute, City of Hope)

  • Zhen Bouman Chen

    (Beckman Research Institute, City of Hope
    Irell and Manella Graduate School of Biological Sciences)

  • Yi Zheng

    (Cincinnati Children’s Hospital Medical Center)

  • Angelo A. Cardoso

    (Beckman Research Institute, City of Hope
    Irell and Manella Graduate School of Biological Sciences)

  • Nadia Carlesso

    (Beckman Research Institute, City of Hope
    Irell and Manella Graduate School of Biological Sciences)

Abstract

Heterogeneity of endothelial cell (EC) populations reflects their diverse functions in maintaining tissue’s homeostasis. However, their phenotypic, molecular, and functional properties are not entirely mapped. We use the Tie2-CreERT2;Rosa26-tdTomato reporter mouse to trace, profile, and cultivate primary ECs from different organs. As paradigm platform, we use this strategy to study bone marrow endothelial cells (BMECs). Single-cell mRNA sequencing of primary BMECs reveals that their diversity and native molecular signatures is transitorily preserved in an ex vivo culture that conserves key cell-to-cell microenvironment interactions. Macrophages sustain BMEC cellular diversity and expansion and preserve sinusoidal-like BMECs ex vivo. Endomucin expression discriminates BMECs in populations exhibiting mutually exclusive properties and distinct sinusoidal/arterial and tip/stalk signatures. In contrast to arterial-like, sinusoidal-like BMECs are short-lived, form 2D-networks, contribute to in vivo angiogenesis, and support hematopoietic stem/progenitor cells in vitro. This platform can be extended to other organs’ ECs to decode mechanistic information and explore therapeutics.

Suggested Citation

  • Young-Woong Kim & Greta Zara & HyunJun Kang & Sergio Branciamore & Denis O’Meally & Yuxin Feng & Chia-Yi Kuan & Yingjun Luo & Michael S. Nelson & Alex B. Brummer & Russell Rockne & Zhen Bouman Chen & , 2022. "Integration of single-cell transcriptomes and biological function reveals distinct behavioral patterns in bone marrow endothelium," Nature Communications, Nature, vol. 13(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-34425-z
    DOI: 10.1038/s41467-022-34425-z
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