Binding of cadmium (Cd2+) to E-CAD1, a calcium-binding polypeptide analog of E-cadherin.

Recent studies have shown that Cd2+ can damage the Ca(2+)-dependent junctions between renal epithelial cells in culture, and preliminary evidence suggests that this effect may involve the interaction of Cd2+ with E-cadherin, a Ca(2+)-dependent cell adhesion molecule that is localized at the adhering junctions of epithelial cells. To determine whether or not Cd2+ might bind directly to the E-cadherin molecule, we studied the binding of Cd2+ to E-CAD1, a recombinant, 145-residue polypeptide that corresponds to one of the extracellular Ca(2+)-binding regions of mouse E-cadherin. By using an equilibrium microdialysis technique, we were able to show that Cd2+ could, in fact, bind to E-CAD1. The binding was saturable, with a maximum of one Cd2+ binding site per E-CAD1 molecule. The apparent dissociation constant (KD) for the binding was about 20 microM, a concentration similar to that which has been shown to disrupt the junctions between epithelial cells. Other results showed that the binding of CD2+ was greatly reduced when excess Ca2+ was included in the dialysis solution. These results suggest that Cd2+ can interact with the Ca2+ binding regions on the E-CAD1 molecule, and they provide additional support for the hypothesis that E-cadherin might be a molecular target for Cd2+ toxicity.