Ferroportin 1 and hephaestin expression in BeWo cell line with different iron treatment.

The process of placental iron transfer is an important physiological process during pregnancy. However, the molecular mechanism of placental iron transport has not been completely elucidated until now. Ferroportin 1 (FPN1) and hephaestin (Heph) have been identified as the important molecules involved in duodenal iron export. However, whether they participate in the placental iron efflux has been undefined until now. In this study, the BeWo cells were treated with desferrioxamine and Holo-transferrin human in different concentrations and harvested at 48 and 72 h. The mRNA expression of FPN1 and Heph was detected with quantitative real-time polymerase chain reaction, and the protein expression was detected with western blots. The results showed an up-regulated FPN1 expression with desferrioxamine treatment and down-regulated expression with Holo-transferrin human supplementation. However, the change of FPN1 expression at protein level was limited. Heph expression enhanced when cells were treated with desferrioxamine although the quantity of Heph expression was low. Heph expression showed no significant change with Holo-transferrin human supplementation. It indicates that FPN1 may participate in placental iron transport, and placental FPN1 expression is obviously not dependent on the iron regular element/iron regular protein regulation. An alternatively spliced FPN1 isoform that lacks an iron regular element may be the predominant expression in BeWo cells. It also demonstrates that Heph is active in placenta but may not play a key role in placental iron transport because it is not the main part of placental copper oxidase.