Stem Cell Reports (Nov 2015)

Induced Developmental Arrest of Early Hematopoietic Progenitors Leads to the Generation of Leukocyte Stem Cells

  • Tomokatsu Ikawa,
  • Kyoko Masuda,
  • Mirelle J.A.J. Huijskens,
  • Rumi Satoh,
  • Kiyokazu Kakugawa,
  • Yasutoshi Agata,
  • Tomohiro Miyai,
  • Wilfred T.V. Germeraad,
  • Yoshimoto Katsura,
  • Hiroshi Kawamoto

DOI
https://doi.org/10.1016/j.stemcr.2015.09.012
Journal volume & issue
Vol. 5, no. 5
pp. 716 – 727

Abstract

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Self-renewal potential and multipotency are hallmarks of a stem cell. It is generally accepted that acquisition of such stemness requires rejuvenation of somatic cells through reprogramming of their genetic and epigenetic status. We show here that a simple block of cell differentiation is sufficient to induce and maintain stem cells. By overexpression of the transcriptional inhibitor ID3 in murine hematopoietic progenitor cells and cultivation under B cell induction conditions, the cells undergo developmental arrest and enter a self-renewal cycle. These cells can be maintained in vitro almost indefinitely, and the long-term cultured cells exhibit robust multi-lineage reconstitution when transferred into irradiated mice. These cells can be cloned and re-expanded with 50% plating efficiency, indicating that virtually all cells are self-renewing. Equivalent progenitors were produced from human cord blood stem cells, and these will ultimately be useful as a source of cells for immune cell therapy.