Endothelium and NOTCH specify and amplify aorta-gonad-mesonephros–derived hematopoietic stem cells
Brandon K. Hadland, … , Shahin Rafii, Irwin D. Bernstein
Brandon K. Hadland, … , Shahin Rafii, Irwin D. Bernstein
Published April 13, 2015
Citation Information: J Clin Invest. 2015;125(5):2032-2045. https://doi.org/10.1172/JCI80137.
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Endothelium and NOTCH specify and amplify aorta-gonad-mesonephros–derived hematopoietic stem cells

Abstract

Hematopoietic stem cells (HSCs) first emerge during embryonic development within vessels such as the dorsal aorta of the aorta-gonad-mesonephros (AGM) region, suggesting that signals from the vascular microenvironment are critical for HSC development. Here, we demonstrated that AGM-derived endothelial cells (ECs) engineered to constitutively express AKT (AGM AKT-ECs) can provide an in vitro niche that recapitulates embryonic HSC specification and amplification. Specifically, nonengrafting embryonic precursors, including the VE-cadherin–expressing population that lacks hematopoietic surface markers, cocultured with AGM AKT-ECs specified into long-term, adult-engrafting HSCs, establishing that a vascular niche is sufficient to induce the endothelial-to-HSC transition in vitro. Subsequent to hematopoietic induction, coculture with AGM AKT-ECs also substantially increased the numbers of HSCs derived from VE-cadherin+CD45+ AGM hematopoietic cells, consistent with a role in supporting further HSC maturation and self-renewal. We also identified conditions that included NOTCH activation with an immobilized NOTCH ligand that were sufficient to amplify AGM-derived HSCs following their specification in the absence of AGM AKT-ECs. Together, these studies begin to define the critical niche components and resident signals required for HSC induction and self-renewal ex vivo, and thus provide insight for development of defined in vitro systems targeted toward HSC generation for therapeutic applications.

Authors

Brandon K. Hadland, Barbara Varnum-Finney, Michael G. Poulos, Randall T. Moon, Jason M. Butler, Shahin Rafii, Irwin D. Bernstein

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Figure 6

Delta1ext-IgG increases multilineage progenitors and long-term HSCs from E11 AGM-derived CD45+VE-cadherin+ cells.

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Delta1ext-IgG increases multilineage progenitors and long-term HSCs from...
(A) Schematic of experimental design. Dotted box indicates approximate region of the AGM. (B) Phenotyping of cells cultured on Delta1ext-IgG or control (hIgG). (C) Total, LSK (SCA1+c-KIT+Gr1F4/80), and myeloid (Gr1+ and/or F4/80+) cells generated on Delta1ext-IgG or hIgG per embryo equivalent (ee) starting cells. (*P < 0.001, Deltaext-IgG vs. hIgG, unpaired Student’s t test). Shown is mean ± SD (n = 3), from representative experiment (n > 3). (D) CFU progenitors from cells cultured on Delta1ext-IgG or hIgG. Shown is mean ± SD (n = 3), from representative experiment (n = 3). (*P < 0.0001 for total, **P < 0.01 for CFU-Mix, Deltaext-IgG vs. hIgG or uncultured, unpaired Student’s t test) (E) T cell precursor phenotyping following extended culture (8 days) on Delta1ext-IgG or hIgG. (F) Generation of B cells (CD19+B220+) and T cells (CD4+CD8+) after culture on Delta1ext-IgG or hIgG followed by secondary culture on OP9/OP9-DL1. (G) Engraftment of cells cultured on Delta1ext-IgG or hIgG. Shown at each time point is mean ± SD of donor PB engraftment (n = 4 experiments, 37 total mice). (H) PB engraftment at ≥16 weeks from n = 5 primary recipients transplanted to each of 2 secondary recipients. (I) Engraftment at ≥24 weeks in mice transplanted with freshly sorted cells (uncultured), or cells cultured on Delta1ext-IgG or hIgG, transplanted at 1 ee. Shown above is a fraction of mice with multilineage engraftment, designated by data points in red. (*P < 0.0001, Delta1ext-IgG vs. uncultured, 2-sided Fisher’s exact test). (J) Limit-dilution analysis of HSC repopulating units (HSC/RU) of cells transplanted prior to culture (uncultured) or following Delta1ext-IgG culture. Dotted lines represent 95% confidence interval (P = 0.00005, ELDA) (60).