A functional hierarchy among the CD34(+) hematopoietic cells based on in vitro proliferative and differentiative potential of AC133(+)CD34(bright) and AC133(dim/-)CD34(+) human cord blood cells
E. Goussetis et al., A functional hierarchy among the CD34(+) hematopoietic cells based on in vitro proliferative and differentiative potential of AC133(+)CD34(bright) and AC133(dim/-)CD34(+) human cord blood cells, J HEMATH ST, 9(6), 2000, pp. 827-840
Citations number
26
Categorie Soggetti
Hematology,"Medical Research Diagnosis & Treatment
The 5-transmembrane receptor AC133 is expressed on a subpopulation of human
hematopoietic cells that includes the CD34(bright) cells. We evaluated the
developmental potential of AC133(+)CD34(bright) and AC133(dim-)CD34(+) cel
ls isolated from 5 cord blood (CB) samples by studying the in vitro prolife
rative and differentiative potential of each population in both progenitor
and mature cell expansion cultures. Seven-day culture of AC133(+)CD34(brigh
t) cells with a cytokine combination favoring primitive progenitor cells ca
uses a significant increase in CD34(+), CFU-C and noncycling stent/progenit
or cells HPP-Q (High Proliferative Potential-Quiescent), whereas culture of
AC133(dim/-)CD34(+) cells shows a limited increase in committed progenitor
cells only. HPP-Q cells were not found in freshly isolated AC133(dim/-)CD3
4(+) nor in expanded CD34(+) cells derived from AC133(dim/-)CD34(+) cells.
No statistically significant difference was observed between the 1-week exp
anded AC133(+) and the initial AC133(+)CD34(bright) cells regarding their c
lonogenic efficiency (CE), while expanded CD34(+) cells derived from AC133(
dim/-)CD34(+) cells exhibited a decreased CE. Subexpansion of the reselecte
d AC133+ derived from AC133(+)CD34(bright) cells reveals a further increase
of stent/progenitor cells and the 14-day expanded AC133+ cells reveal an u
nchanged CE. Subexpansion of reselected 7-day CD34(+) cells derived from AC
133(dim/-)CD34(+) cells was not possible. Culture of AC133(+)CD34(bright) c
ells in cytokines that favor megakaryopoiesis or erythropoiesis resulted in
a significant expansion of CD41(+) and CD71(+) cells, respectively; AC133(
dim/-)CD34(+), in comparison, showed a limited potential to megakaryocytic
differentiation and a decreased production of erythroid cells. Our data ind
icate that early high proliferating stem/progenitor cells and early committ
ed progenitors are present in AC133(+)CD34(bright) cells, but not in AC133(
dim/-)CD34(+) cells; the latter represent late committed progenitors with l
imited proliferative potential.