Eurico J. Cabrita

Citation:

Platinated DNA Affects Zinc Finger Conformation. The Interaction of a Platinated Single-Stranded Oligonucleotide and the C-terminal Zinc Finger of the Nucleocapsid Protein HIVNCp7, Quintal, Susana Maria, Viegas Aldino, Erhardt Stefan, Cabrita Eurico J., and Farrell Nicholas P. , Biochemistry, Volume 51, p.1752-1761, (2012)

Abstract:

This paper describes for the first time the intimate molecular details of the association between a platinated oligonucleotide and a zinc-finger peptide. Site-specific platination of the guanine in a ss hexanucleotide gave {[Pt(dien)d(5’-TACGCC-3’)], Pt(dien)(6-mer)}, II, characterized by mass spectrometry and 1H-NMR spectroscopy. The work extends the study of platinum-nucleobase complex-zinc finger interactions using small molecules such as [Pt(dien)(9-EtGua)]2+, I . The structure of the (34-52) C-terminal finger of the HIV nucleocapsid protein HIVNCp7 (ZF1) was characterized by 1H-NMR spectroscopy and compared with that of the N-terminal single finger and the 2-finger “intact” NCp7. Interaction of II with ZF1 results in significant changes in comparison to the “free” uncomplexed hexanucleotide – the major shifts occur for Trp37 resonances are broadened and shifted upfield and other major shifts are for Gln45 (H21, H3, Q), Met46 (NH, H2), Lys47 (NH, Q) and Glu50 (H2, H3). The Zn-Cys/His chemical shifts show only marginal deviations. The solution structure of ZF1, the 6-mer/ZF1 and II/ZF1 adducts were calculated from the NOESY-derived distance constraints. The DNA position in II/ZF1 is completely different than in the absence of platinum. Major differences are the appearance of new Met46-Cyt6H5 and Trp37-Cyt5H5 contacts but severe weakening of the Trp37-Gua4 contact, attributed to the steric effects caused by Gua4 platination, accompanied by a change in the position of the aromatic ring. The results demonstrate the feasibility of targetting specific ZF motifs with DNA-tethered coordination compounds, such as Pt compounds and Co-macrocycles – with implications for drug targetting and indeed the intimate mechansims of DNA repair of platinated DNA.

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