Characterization of functionally distinct subpopulations of CD34+ cord blood cells in serum-free long-term cultures supplemented with hematopoietic cytokines

Abstract

Abstract We have previously identified, based on the expression of the CD45RA and CD71 antigens, three major subpopulations of CD34+ cells derived from human umbilical cord blood: CD34+ CD45RAloCD71lo cells (up to 42% multipotent progenitors), CD34+ CD45RA+ CD71lo cells (90% myeloid progenitors), and CD34+ CD45RAloCD71+ cells (70% erythroid progenitors). In the present study, we have investigated the long-term proliferation and differentiation of these subpopulations in response to hematopoietic cytokines. Cells from each subpopulation were cultured for 38 days in serum- and stroma-free liquid cultures supplemented with cytokine combinations that favor either erythropoiesis or myelopoiesis. In keeping with their high content of primitive progenitors, CD34+ CD45RAloCD71lo cells showed the highest CD34+ cell expansion (up to 532- fold) throughout the culture period, followed by CD34+ CD45RA+ CD71lo (130-fold) and CD34+ CD45RAloCD71+ (28-fold) cells. Interestingly, the cytokine combination favoring myelopoiesis was always more efficient in inducing CD34+ cell expansion than the one favoring erythropoiesis. In all but one of the cultures, a predominance of myelopoiesis was observed after 2 weeks, even in those supplemented with the cytokine mixture that favors erythropoiesis. Only when CD34+ CD45RAloCD71+ cells were cultured in the presence of erythroid cytokine mixture, erythropoiesis was evident at all time points. However, such cultures could be sustained for only 29 days. The results of this study demonstrate that the cord blood-derived CD34+ cell compartment consists of functionally distinct cell subpopulations that possess different proliferative capacities in vitro. Our results also show that the cytokine combinations used here were able to modulate proliferation and, to a much lesser extent, differentiation of such subpopulations, probably by favoring the expansion of committed progenitors rather than by acting on uncommitted cells.