H. Li et Jd. Otvos, CD-111 NMR-STUDIES OF THE DOMAIN SPECIFICITY OF AG+ AND CU+ BINDING TO METALLOTHIONEIN, Biochemistry, 35(44), 1996, pp. 13929-13936
Metal displacement reactions of Cd(7)MT with Ag+ or Cu+ and interprote
in metal exchange reactions between Cd(7)MT and Ag(12)MT or Cu(12)MT w
ere studied by Cd-111 NMR. Titration of (111)Cd(7)MT with Ag+ indicate
s that Ag+ binds preferentially to the beta-domain of the protein to f
orm the metal hybrid species, (Cd-4)(alpha)(Ag-6)(beta)MT. Once the be
ta-domain is filled, additional Ag+ ions displace Cd2+ from the alpha-
domain to form (Ag-6)(alpha)(Ag-6)(beta)MT. The metal displacement rea
ction is cooperative and the two domains react independently of one an
other. The (Cd-4)(alpha)(Ag-6)(beta)MT hybrid protein is also formed a
s the major product of direct interprotein metal exchange between Cd(7
)MT and Ag(12)MT. Cu+ reacts with Cd(7)MT in a manner similar to Ag+,
with addition of 6 equiv of Cu+ leading to preferential formation of (
Cd-4)(alpha)(Cu-6)(beta)MT, and 12 equiv of Cu+ to formation of (Cu-6)
(alpha)(Cu-6)(beta)MT. However, unlike Ag+, Cu+ appears to produce int
ermediate species that may contain mixed-metal clusters. Interprotein
metal exchange between Cu(12)MT and Cd(7)MT leads to the net transfer
of Cd2+ into the alpha-domain and Cu+ into the beta-domain. The differ
ential affinities of the two domains for monovalent and divalent metal
ions plus the availability of facile pathways for metal exchange may
be features that enable MT to function simultaneously in the metabolis
m of different metal ions.