(Cu,Zn)-metallothioneins from fetal bovine liver. Chemical and spectroscopic properties.

Abstract

Two metallothioneins (MTs) from bovine fetal liver were purified by a combination of gel filtration and ion-exchange chromatography. The primary structures of the isoproteins MT-1 and MT-2 were elucidated by peptide and amino acid sequence analysis. The amino-terminal part was deduced from automated Edman degradations of the pyridylethylated CNBr-cleaved derivatives. The remaining part of the sequence was established by a comparison of the carboxamidomethylated tryptic peptides to those from equine liver MT-1A and MT-2B. Peptides differing in either amino acid composition or retention time from high pressure liquid chromatography were further subjected to manual Edman degradations or carboxypeptidase Y digestion. The two isoproteins consist of 61 amino acids and show a sequence identity of 90%. When compared with the primary structures of other mammalian MTs, the 20 cysteinyl residues are totally conserved, in agreement with their function as metal ligands. The two isoproteins contain Cu and Zn at a ratio of 3:4. Spectroscopic data reveal absorption properties typical for both Cu- and Zn-thiolate transitions. The marked differences of MT-1 and MT-2 in the Cu-thiolate CD features can be attributed to the six amino acid substitutions occurring exclusively in the amino-terminal parts of the molecules. It is proposed that in bovine fetal MTs also the three copper ions are preferentially bound to the first 9 cysteinyl residues (cluster B) and the four zinc ions to the remaining 11 cysteinyl residues (cluster A) suggested previously by 113Cd NMR spectroscopy of calf liver MTs (Briggs, R. W., and Armitage, I. M. (1982) J. Biol. Chem. 257, 1259-1262).