Occupancy of a C2‐C2 type 'Zinc‐finger' protein domain by copper Direct observation by electrospray ionization mass spectrometry

TW Hutchens, MH Allen, CM Li, TT Yip - FEBS letters, 1992 - Wiley Online Library
TW Hutchens, MH Allen, CM Li, TT Yip
FEBS letters, 1992Wiley Online Library
The metal ion specificity of most 'zinc‐finger'metal binding domains is unknown. The human
estrogen receptor protein contains two different C2‐C2 type 'zinc‐finger'sequences within its
DNA‐binding domain (ERDBD). Copper inhibits the function of this protein by mechanisms
which remain unclear. We have used electrospray ionization mass spectrometry to evaluate
directly the 71‐residue ERDBD (K180‐M250) in the absence and presence of Cu (II) ions.
The ERDBD showed a high affinity for Cu and was completely occupied with 4 Cu bound; …
The metal ion specificity of most ‘zinc‐finger’ metal binding domains is unknown. The human estrogen receptor protein contains two different C2‐C2 type ‘zinc‐finger’ sequences within its DNA‐binding domain (ERDBD). Copper inhibits the function of this protein by mechanisms which remain unclear. We have used electrospray ionization mass spectrometry to evaluate directly the 71‐residue ERDBD (K180‐M250) in the absence and presence of Cu(II) ions. The ERDBD showed a high affinity for Cu and was completely occupied with 4 Cu bound; each Cu ion was evidently bound to only two ligand residues (net loss of only 2 Da per bound Cu). The Cu binding stoichiometry was confirmed by atomic absorption. These results (i) provide the first direct physical evidence for the ability of the estrogen receptor DNA‐binding domain to bind Cu and (ii) document a twofold difference in the Zn‐ and Cu‐binding capacity. Differences in the ERDBD domain structure with bound Zn and Cu are predicted. Given the relative intracellular contents of Zn and Cu, our findings demonstrate the need to investigate further the Cu occupancy of this and other zinc‐finger domains both in vitro and in vivo.
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