Enhanced colony formation of human hemopoietic stem cells in reduced oxygen tension.

In general, cell cultures, including hemopoietic stem cells, are produced in an atmosphere of various CO2 concentrations in air, although most cells in vivo proliferate and differentiate at lower oxygen tensions. We therefore investigated the effect of reduced oxygen tension on the in vitro colony growth of committed and multipotential hemopoietic progenitor cells from human bone marrow. All hemopoietic progenitor cells (CFU-mix, BFU-E, CFU-E, and CFU-GM) investigated showed enhanced colony growth at lower oxygen tension. CFU-E showed the highest enhancement, followed in order by BFU-E, CFU-mix and CFU-GM. At reduced oxygen tension, the sensitivity of early and late erythroid progenitor cells to erythropoietin was significantly increased, and this can be one of the mechanisms for the enhanced colony growth of erythroid progenitors. In the colony growth of CFU-GM, plating efficiency was also enhanced by the predominant increment of neutrophilic colonies. The lowering of oxygen tension would presumably reduce oxygen toxicity and result in the increased colony growth of human bone marrow stem cells, although the precise mechanisms of oxygen toxicity at the level of hemopoietic stem cells have yet to be elucidated. However, this clonal culture system, using a low oxygen tension, can be a useful means for elucidating the regulatory mechanisms involved in the proliferation and differentiation of hemopoietic progenitor cells in physiological and pathological conditions.