The reaction of Pt-based anticancer agents with arsenic trioxide affords robust complexes known as arsenoplatins. The prototype of this family of anticancer compounds is arsenoplatin-1 (AP-1) that contains an As(OH)2 fragment linked to a Pt(ii) moiety derived from cisplatin. Crystallographic and spectrometric studies of AP-1 binding to a B-DNA double helix dodecamer are presented here, in comparison with cisplatin and transplatin. Results reveal that AP-1, cisplatin and transplatin react differently with the DNA model system. Notably, in the AP-1/DNA systems, the Pt-As bond can break down with time and As-containing fragments can be released. These results have implications for the understanding of the mechanism of action of arsenoplatins.
On the mechanism of action of arsenoplatins: arsenoplatin-1 binding to a B-DNA dodecamer / Romualdo Troisi; Gabriella Tito; Giarita Ferraro; Filomena Sica; Lara Massai; Andrea Geri; Damiano Cirri; Luigi Messori; Antonello Merlino. - In: DALTON TRANSACTIONS. - ISSN 1477-9234. - ELETTRONICO. - 205:(2022), pp. 3476-3483. [10.1039/D3DT04302A]
On the mechanism of action of arsenoplatins: arsenoplatin-1 binding to a B-DNA dodecamer
Giarita Ferraro;Lara Massai;Andrea Geri;Damiano Cirri;Luigi Messori;Antonello Merlino
2022
Abstract
The reaction of Pt-based anticancer agents with arsenic trioxide affords robust complexes known as arsenoplatins. The prototype of this family of anticancer compounds is arsenoplatin-1 (AP-1) that contains an As(OH)2 fragment linked to a Pt(ii) moiety derived from cisplatin. Crystallographic and spectrometric studies of AP-1 binding to a B-DNA double helix dodecamer are presented here, in comparison with cisplatin and transplatin. Results reveal that AP-1, cisplatin and transplatin react differently with the DNA model system. Notably, in the AP-1/DNA systems, the Pt-As bond can break down with time and As-containing fragments can be released. These results have implications for the understanding of the mechanism of action of arsenoplatins.
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