Ascorbate is regenerated by HL-60 cells through the transplasmalemma redox system

Ceruloplasmin stimulates thymidine incorporation by CCL-39 cells in the absence of serum or growth factors

The incorporation of tritiated thymidine into CCL-39 cells grown in the absence of fetal calf serum or other growth factors is greatly increased by low concentrations of ceruloplasmin. The stimulation is greater than observed with serum or thrombin. Addition of serum decreases the thymidine incorporation with ceruloplasmin to the level with serum alone. As with serum, the response to ceruloplasmin is high at both 20% and 1% oxygen, which is consistent with the action of ceruloplasmin as an oxidant with a high affinity for oxygen. Since transplasma membrane electron transport increases cell growth and thymidine incorporation, ceruloplasmin may act as a terminal oxidase for ferrous iron or ascorbate to stimulate transplasma membrane electron transport. The four electron transfer from ceruloplasmin to oxygen to form water will prevent peroxide formation at the cell surface. Alternatively, superoxide formation inside the cell or membrane could employ the superoxide dismutase function of ceruloplasmin to produce peroxide. Either mechanism would be consistent with the previously described stimulation of growth by external oxidants.