JCI Insight (Mar 2023)

Origin, prospective identification, and function of circulating endothelial colony-forming cells in mice and humans

  • Yang Lin,
  • Kimihiko Banno,
  • Chang-Hyun Gil,
  • Jered Myslinski,
  • Takashi Hato,
  • William C. Shelley,
  • Hongyu Gao,
  • Xiaoling Xuei,
  • Yunlong Liu,
  • David P. Basile,
  • Momoko Yoshimoto,
  • Nutan Prasain,
  • Stefan P. Tarnawsky,
  • Ralf H. Adams,
  • Katsuhiko Naruse,
  • Junko Yoshida,
  • Michael P. Murphy,
  • Kyoji Horie,
  • Mervin C. Yoder

Journal volume & issue
Vol. 8, no. 5

Abstract

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Most circulating endothelial cells are apoptotic, but rare circulating endothelial colony-forming cells (C-ECFCs), also known as blood outgrowth endothelial cells, with proliferative and vasculogenic activity can be cultured; however, the origin and naive function of these C-ECFCs remains obscure. Herein, detailed lineage tracing revealed murine C-ECFCs emerged in the early postnatal period, displayed high vasculogenic potential with enriched frequency of clonal proliferative cells compared with tissue-resident ECFCs, and were not committed to or derived from the BM hematopoietic system but from tissue-resident ECFCs. In humans, C-ECFCs were present in the CD34bright cord blood mononuclear subset, possessed proliferative potential and in vivo vasculogenic function in a naive or cultured state, and displayed a single cell transcriptome sharing some umbilical venous endothelial cell features, such as a higher protein C receptor and extracellular matrix gene expression. This study provides an advance for the field by identifying the origin, naive function, and antigens to prospectively isolate C-ECFCs for translational studies.

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