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Ectopic miR-125a Expression Induces Long-Term Repopulating Stem Cell Capacity in Mouse and Human Hematopoietic Progenitors.

Cell stem cell (2016-07-19)
Edyta E Wojtowicz, Eric R Lechman, Karin G Hermans, Erwin M Schoof, Erno Wienholds, Ruth Isserlin, Peter A van Veelen, Mathilde J C Broekhuis, George M C Janssen, Aaron Trotman-Grant, Stephanie M Dobson, Gabriela Krivdova, Jantje Elzinga, James Kennedy, Olga I Gan, Ankit Sinha, Vladimir Ignatchenko, Thomas Kislinger, Bertien Dethmers-Ausema, Ellen Weersing, Mir Farshid Alemdehy, Hans W J de Looper, Gary D Bader, Martha Ritsema, Stefan J Erkeland, Leonid V Bystrykh, John E Dick, Gerald de Haan
RESUMEN

Umbilical cord blood (CB) is a convenient and broadly used source of hematopoietic stem cells (HSCs) for allogeneic stem cell transplantation. However, limiting numbers of HSCs remain a major constraint for its clinical application. Although one feasible option would be to expand HSCs to improve therapeutic outcome, available protocols and the molecular mechanisms governing the self-renewal of HSCs are unclear. Here, we show that ectopic expression of a single microRNA (miRNA), miR-125a, in purified murine and human multipotent progenitors (MPPs) resulted in increased self-renewal and robust long-term multi-lineage repopulation in transplanted recipient mice. Using quantitative proteomics and western blot analysis, we identified a restricted set of miR-125a targets involved in conferring long-term repopulating capacity to MPPs in humans and mice. Our findings offer the innovative potential to use MPPs with enhanced self-renewal activity to augment limited sources of HSCs to improve clinical protocols.

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