Notch2 governs the rate of generation of mouse long- and short-term repopulating stem cells
Barbara Varnum-Finney, … , Freddy Radtke, Irwin D. Bernstein
Barbara Varnum-Finney, … , Freddy Radtke, Irwin D. Bernstein
Published February 1, 2011
Citation Information: J Clin Invest. 2011;121(3):1207-1216. https://doi.org/10.1172/JCI43868.
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Research Article Hematology

Notch2 governs the rate of generation of mouse long- and short-term repopulating stem cells

Abstract

HSCs either self-renew or differentiate to give rise to multipotent cells whose progeny provide blood cell precursors. However, surprisingly little is known about the factors that regulate this choice of self-renewal versus differentiation. One candidate is the Notch signaling pathway, with ex vivo studies suggesting that Notch regulates HSC differentiation, although a functional role for Notch in HSC self-renewal in vivo remains controversial. Here, we have shown that Notch2, and not Notch1, inhibits myeloid differentiation and enhances generation of primitive Sca-1+c-kit+ progenitors following in vitro culture of enriched HSCs with purified Notch ligands. In mice, Notch2 enhanced the rate of formation of short-term repopulating multipotential progenitor cells (MPPs) as well as long-term repopulating HSCs, while delaying myeloid differentiation in BM following injury. However, consistent with previous reports, once homeostasis was achieved, neither Notch1 nor Notch2 affected repopulating cell self-renewal. These data indicate a Notch2-dependent role in assuring orderly repopulation by HSCs, MPPs, myeloid cells, and lymphoid cells during BM regeneration.

Authors

Barbara Varnum-Finney, Lia M. Halasz, Mingyi Sun, Thomas Gridley, Freddy Radtke, Irwin D. Bernstein

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Figure 4

Notch2 enhances the tempo of HSC and MPP recovery after transplant into irradiated recipients.

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Notch2 enhances the tempo of HSC and MPP recovery after transplant into ...
(A) Measurement of HSC and MPP recovery after transplant into irradiated recipients. BMT, BM transplantation. (B) Number of donor (Ly5.2+) and SK+ gated cells generated 13 days after transplant into primary recipients. Data are mean ± SEM from 2 independent experiments with 5 mice per group per experiment (total 10 Notch2fl/flCre+ and 10 Notch2fl/flCre). (C) Survival outcome after transplant into lethally irradiated recipients of 1 × 106 cells from primary recipients transplanted 11 days previously with 5 × 105Notch1fl/flCre or Notch1fl/flCre+ cells. Results were analyzed with a log-rank nonparametric test and expressed as Kaplan-Meier survival curves (n = 4, P = 0.45). (D) Survival outcome after transplant into lethally irradiated recipients of 1 × 106 cells from primary recipients transplanted 11 days previously with 5 × 105Notch2fl/flCre or Notch2fl/flCre+ cells or with no cells. Results were analyzed with a log-rank nonparametric test and expressed as Kaplan-Meier survival curves (n = 4, P = 0.01). (E) Survival outcome after transplant into lethally irradiated recipients of 1 × 106 cells from primary recipients transplanted 13 days previously with 5 × 105Notch2fl/flCre or Notch2fl/flCre+ cells or with no cells. Results were analyzed with a log-rank nonparametric test and expressed as Kaplan-Meier Survival curves (n = 6, P = 0.05).