Notch-mediated expansion of human cord blood progenitor cells capable of rapid myeloid reconstitution

Delayed myeloid engraftment after cord blood transplantation (CBT) is thought to result from inadequate numbers of progenitor cells in the graft and is associated with increased early transplant–related morbidity and mortality. New culture strategies that increase the number of cord blood progenitors capable of rapid myeloid engraftment after CBT would allow more widespread use of this stem cell source for transplantation. Here we report the development of a clinically relevant Notch-mediated ex vivo expansion system for human CD34+ cord blood progenitors that results in a marked increase in the absolute number of stem/progenitor cells, including those capable of enhanced repopulation in the marrow of immunodeficient nonobese diabetic–severe combined immunodeficient (NOD-SCID) mice. Furthermore, when cord blood progenitors expanded ex vivo in the presence of Notch ligand were infused in a clinical setting after a myeloablative preparative regimen for stem cell transplantation, the time to neutrophil recovery was substantially shortened. To our knowledge, this is the first instance of rapid engraftment derived from ex vivo expanded stem/progenitor cells in humans

Dose-dependent effects of the Notch ligand Delta1 on ex vivo differentiation and in vivo marrow repopulating ability of cord blood cells

Although significant advances have been made over the last decade with respect to our understanding of stem cell biology, progress has been limited in the development of successful techniques for clinically significant ex vivo expansion of hematopoietic stem and progenitor cells. We here describe the effect of Notch ligand density on induction of Notch signaling and subsequent cell fate of human CD34(+)CD38(–) cord blood progenitors. Lower densities of Delta1(ext-IgG) enhanced the generation of CD34(+) cells as well as CD14(+) and CD7(+) cells, consistent with early myeloid and lymphoid differentiation, respectively. However, culture with increased amounts of Delta1(ext-IgG) induced apoptosis of CD34(+) precursors resulting in decreased cell numbers, without affecting generation of CD7(+) cells. RNA interference studies revealed that the promotion of lymphoid differentiation was primarily mediated by Delta1 activation of Notch1. Furthermore, enhanced generation of NOD/SCID repopulating cells was seen following culture with lower but not higher densities of ligand. These studies indicate critical, quantitative aspects of Notch signaling in affecting hematopoietic precursor cell-fate outcomes and suggest that density of Notch ligands in different organ systems may be an important determinant in regulating cell-fate outcomes. Moreover, these findings contribute to the development of methodology for manipulation of hematopoietic precursors for therapeutic purposes