HeLa cells cultured in defined serum-free media supplied with iron wither in the form of diferric transferrin (transferrin-dependent cells), ferric citrate at 500 micromol/l (high-iron dependent cells) or ferric citrate at 5 micromol/l (low-iron dependent cells) accumulate iron from ferric citrate in different ways. The uptake rate in transferrin-dependent cells is always much lower in the other two lines. In all three, the uptake rate rises almost linearly with the concentration of iron up to 10 micromol/l. In high-iron dependent cells, the uptake of radiolabelled iron is suppressed by a 100-fold excess of the iron complex, whereas this same excess stimulates iron uptake in the other two lines. The same concentrations of pure citrate completely inhibit iron uptake by all three types of cell. Only high-iron dependent cells take up citrate at measurable and reproducible rates. These rates are independent on the presence of iron, and the uptake is inhibited by an unlabelled surplus. The pH-dependence of iron uptake in high-iron dependent cells is also different from that of the other cells. Low-iron dependent cells transferred to medium containing 500 micromol/l iron show increased uptake rates within 3 to 7 h, and after overnight maintenance in this medium they acquire the uptake characteristics of high-iron dependent cells. The special characteristics of iron uptake by high-iron dependent cells are paralleled by low binding activity of iron-regulatory protein to iron-responsive elements of RNA. We conclude that low-iron dependent cells maintain their iron supply from the culture medium by unspecific uptake of oligomeric complexes, while cells in media with a high content of low-molecular weight iron induce a specific uptake system which might have a protective function.