Cell Reports (Nov 2024)

Polyclonal regeneration of mouse bone marrow endothelial cells after irradiative conditioning

  • Izabella Skulimowska,
  • Jan Morys,
  • Justyna Sosniak,
  • Monika Gonka,
  • Gunsagar Gulati,
  • Rahul Sinha,
  • Kacper Kowalski,
  • Sylwester Mosiolek,
  • Irving L. Weissman,
  • Alicja Jozkowicz,
  • Agata Szade,
  • Krzysztof Szade

Journal volume & issue
Vol. 43, no. 11
p. 114779

Abstract

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Summary: Bone marrow endothelial cells (BM-ECs) are the essential components of the BM niche and support the function of hematopoietic stem cells (HSCs). However, conditioning for HSC transplantation causes damage to the recipients’ BM-ECs and may lead to transplantation-related morbidity. Here, we investigated the cellular and clonal mechanisms of BM-EC regeneration after irradiative conditioning. Using single-cell RNA sequencing, imaging, and flow cytometry, we revealed how the heterogeneous pool of BM-ECs changes during regeneration from irradiation stress. Next, we developed a single-cell in vitro clonogenic assay and demonstrated that all EC fractions hold a high potential to reenter the cell cycle and form vessel-like structures. Finally, we used Rainbow mice and a machine-learning-based model to show that the regeneration of BM-ECs after irradiation is mostly polyclonal and driven by the broad fraction of BM-ECs; however, the cell output among clones varies at later stages of regeneration.

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