Effects of iron supplementation on iron uptake by differentiating cytotrophoblasts

Abstract

Cultured in Medium-199, cytotrophoblasts isolated from human placentae differentiate morphologically (e.g. syncytium formation) as well as biochemically (e.g. expression of transferrin receptors, TfRs) into syncytiotrophoblast-like structures. The highest TfR numbers are observed in cells cultured in iron-poor culture medium. Investigated were the implications of the variation in surface TfR numbers on the uptake of iron by cytotrophoblasts cultured in iron-poor Medium-199. Despite differences in TfR densities induced by culture time and iron availability, the initial rate of iron uptake did not change (80-100 pmol/mg protein/h). Homeostasis of iron uptake could be explained by adaptive changes in the rate constant for TfR endocytosis (kend), exocytosis (kexo) and TfR cycle times. In undifferentiated cells (cultured for 18 h) kend was 0.299 min-1. In differentiated cells (culture time 65 h, higher surface TfR densities), kend changed to 0.138 min-1. Culture for 65 h in diferric transferrin-enriched medium resulted in intermediate TfR densities together with an intermediate kend (0.210 min-1). Adaptive changes in the corresponding rate constant of exocytosis were less pronounced (0.192, 0.192 and 0.260 min-1 respectively). It is concluded that differentiating cytotrophoblasts regulate iron uptake by variation of both TfR numbers and the rate of receptor-mediated endocytosis and exocytosis.