Characterisation of human metallothioneins from foetal liver and adult kidney using differential pulse polarography

The electrochemical behaviour of four human metallothioneins (MT) from foetal liver and adult kidney with respect to solution pH as well as the influence of the addition of cadmium and/or zinc were studied using differential pulse polarography. The complexation equilibrium of dissociation and the formation from their metal depleted form was investigated, going from basic to acid solution and vice versa. The stability of these human MTs with respect to changes in the pH of the solution is low. In fact, the complexation equilibrium is not reversible and consequently, the protein, at acid pH, is denatured and the metal binding capacity to complex the cations through the thiol groups is lost. In the case of some of these MTs two different electrochemical responses due to the reduction of complexed Cd(II), as well as to the Zn(II) complexes were distinguished. The predominance of each of these two species for both cations seems to depend on the total concentration, on the ratio between zinc and cadmium concentrations and on the solution pH. In each of the molecules studied, the addition of zinc provokes the transformation of the peak attributed to the Cd-Thionein complex CdT, initially found in the native MT, into another form, CdT′, having different characteristics to the initial one. The MTs are able to incorporate the added metal ions into their molecule. This implies a new reorganisation of the initial molecule in which both cadmium and zinc complexes are involved. The apparent stability constants of the Cd-MT, Zn-MT and Hg-MT complexes were estimated at different pH values.