Abstract
Transferrin receptor 1 (R(D)) binds iron-loaded transferrin and allows its internalization in the cytoplasm. Human serum transferrin also forms complexes with metals other than iron, including uranium in the uranyl form (UO(2)(2+)). Can the uranyl-saturated transferrin (TUr(2)) follow the receptor-mediated iron-acquisition pathway? In cell-free assays, TUr(2) interacts with R(D) in two different steps. The first is fast, direct rate constant, k(1) = (5.2 +/- 0.8) x 10(6) M(-1) s(-1); reverse rate constant, k(-1) = 95 +/- 5 s(-1); and dissociation constant K(1) = 18 +/- 6 microM. The second occurs in the 100-s range and leads to an increase in the stability of the protein-protein adduct, with an average overall dissociation constant K(d) = 6 +/- 2 microM. This kinetic analysis implies in the proposed in vitro model possible but weak competition between TUr(2) and the C-lobe of iron-loaded transferrin toward the interaction with R(D).
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