AIM:A Pt(II)-terpyridine compound, bearing two piperidine substituents at positions 2 and 2' of the terpyridine ligand (1), is highly cytotoxic and shows a mechanism of action distinct from cisplatin. 1 has been incorporated within the ferritin nanocage (AFt). MATERIALS & METHODS:Spectroscopic and crystallographic data of the Pt(II)-AFt nanocomposite have been collected and in vitro anticancer activity has been explored using cancer cells. RESULTS:Pt(II)-containing fragments bind His49, His114 and His132. Pt(II)-AFt nanocomposite is less cytotoxic than 1, but it is more toxic than cisplatin at high concentrations. The Pt(II)-AFt nanocomposite triggers necrosis in cancer cells, as free 1 does. CONCLUSION:Pt(II)-AFt nanocomposites are promising vehicles to deliver Pt-based drugs to cancer cells.
Preparation, structure, cytotoxicity and mechanism of action of ferritin-Pt(II) terpyridine compound nanocomposites / Ferraro, Giarita; Pica, Andrea; Petruk, Ganna; Pane, Francesca; Amoresano, Angela; Cilibrizzi, Agostino; Vilar, Ramon; Monti, Daria Maria; Merlino, Antonello. - In: NANOMEDICINE. - ISSN 1743-5889. - 13:23(2018), pp. 2995-3007. [10.2217/nnm-2018-0259]
Preparation, structure, cytotoxicity and mechanism of action of ferritin-Pt(II) terpyridine compound nanocomposites
Ferraro, Giarita;Pica, Andrea;Petruk, Ganna;Pane, Francesca;Amoresano, Angela;Monti, Daria Maria;Merlino, Antonello
2018
Abstract
AIM:A Pt(II)-terpyridine compound, bearing two piperidine substituents at positions 2 and 2' of the terpyridine ligand (1), is highly cytotoxic and shows a mechanism of action distinct from cisplatin. 1 has been incorporated within the ferritin nanocage (AFt). MATERIALS & METHODS:Spectroscopic and crystallographic data of the Pt(II)-AFt nanocomposite have been collected and in vitro anticancer activity has been explored using cancer cells. RESULTS:Pt(II)-containing fragments bind His49, His114 and His132. Pt(II)-AFt nanocomposite is less cytotoxic than 1, but it is more toxic than cisplatin at high concentrations. The Pt(II)-AFt nanocomposite triggers necrosis in cancer cells, as free 1 does. CONCLUSION:Pt(II)-AFt nanocomposites are promising vehicles to deliver Pt-based drugs to cancer cells.| File | Dimensione | Formato | |
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