Your search keyword '"Vigna, V."' showing total 3 results

1. Computational assessment of the use of graphene-based nanosheets as Pt II chemotherapeutics delivery systems.

Author

Belletto D, Vigna V, Barretta P, Ponte F, Mazzone G, Scoditti S, and Sicilia E

Subjects

Carboplatin chemistry, Nanostructures chemistry, Oxaliplatin chemistry, Drug Delivery Systems, Adsorption, Organoplatinum Compounds chemistry, Graphite chemistry, Antineoplastic Agents chemistry, Cisplatin chemistry, Density Functional Theory, Drug Carriers chemistry

Abstract

Graphene is the newest form of elemental carbon and it is becoming rapidly a potential candidate in the framework of nano-bio research. Many reports confirm the successful use of graphene-based materials as carriers of anticancer drugs having relatively high loading capacities compared with other nanocarriers. Here, the outcomes of a systematic study of the adsorption behavior of FDA approved Pt II drugs cisplatin, oxaliplatin, and carboplatin on surface models of pristine, holey, and nitrogen-doped holey graphene are reported. DFT investigations in water solvent have been carried out considering several initial orientations of the drugs with respect to the surfaces. Adsorption free energies, calculated including basis set superposition error (BSSE) corrections, result to be significantly negative for many of the drug@carrier adducts indicating that tested layers could be used as potential carriers for the delivery of anticancer Pt II drugs. The reduced density gradient (RDG) analysis allows to show that many kinds of non-covalent interactions, including canonical H-bond, are responsible for the stabilization of the formed adducts., (© 2024 Wiley Periodicals LLC.)

Published

2024

2. Ruthenium complexes bearing nile red chromophore and one of its derivative: Theoretical evaluation of PDT-related properties.

Author

Barretta P, Scoditti S, Belletto D, Ponte F, Vigna V, Mazzone G, and Sicilia E

Abstract

The outcomes of DFT-based calculations are here reported to assess the applicability of two synthesized polypyridyl Ru(II) complexes, bearing ethynyl nile red (NR) on a bpy ligand, and two analogues, bearing modified-NR, in photodynamic therapy. The absorption spectra, together with the non-radiative rate constants for the S1 - Tn intersystem crossing transitions, have been computed for this purpose. Calculations evidence that the structural modification on the chromophore destabilizes the HOMO of the complexes thus reducing the H-L gap and, consequently, red shifting the maximum absorption wavelength within the therapeutic window, up to 620 nm. Moreover, the favored ISC process from the bright state involves the triplet state closest in energy, which is also characterized by the highest SOC value and by the involvement of the whole bpy ligand bearing the chromophore in delocalising the unpaired electrons. These outcomes show that the photophysical behavior of the complexes is dominated by the chromophore., (© 2024 Wiley Periodicals LLC.)

Published

2024

3. Iodido equatorial ligands influence on the mechanism of action of Pt(IV) and Pt(II) anti-cancer complexes: A DFT computational study.

Author

Scoditti S, Vigna V, Dabbish E, and Sicilia E

Subjects

Animals, Antineoplastic Agents pharmacology, Chickens, Guanine metabolism, Iodides pharmacology, Ligands, Models, Molecular, Muramidase metabolism, Organoplatinum Compounds pharmacology, Quantum Theory, Antineoplastic Agents chemistry, Iodides chemistry, Organoplatinum Compounds chemistry

Abstract

A detailed computational exploration of the most relevant steps of iodido Pt(IV) complexes reduction and Pt(II) drugs mechanism of action and eventual deactivation is presented here inspired by the recent findings on iodido Pt(II) complexes and surprising re-evaluation of their cytotoxic activity. Pt(II) and Pt(IV) model systems are investigated and compared with cisplatin and its Pt(IV) derivative. Both monodeprotonated ascorbic acid and l-cysteine are used as reducing agents in the inner-sphere reduction mechanism of Pt(IV) complexes. Aquation mechanism of iodido Pt(II) complexes, interaction with guanine and sulfur containing compounds and reaction with the model protein hen egg white lysozyme are explored, due to a detected different behavior with respect to classical platinum drugs. The outcomes of such exploration allow to shed light on the role that the increased soft character together with bridging and leaving abilities of iodide over chloride could play in determining the cytotoxic profile of iodido Pt drugs., (© 2021 Wiley Periodicals LLC.)

Published

2021