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13 results on '"Aloisi, Gian Gaetano"'

1. Photophysical Properties and Photobiological Behavior of Amodiaquine, Primaquine and Chloroquine.

Author

Viola, Giampietro, Salvador, Alessia, Cecconet, Laura, Basso, Giuseppe, Vedaldi, Daniela, Dall'Acqua, Francesco, Aloisi, Gian Gaetano, Amelia, Matteo, Barbafina, Arianna, Latterini, Loredana, and Elisei, Fausto

Subjects
PRIMAQUINE, CHLOROQUINE, ANTIMALARIALS, AMINES, IRRADIATION
Abstract

This article describes the results of a coupled photophysical and photobiological study aimed at understanding the phototoxicity mechanism of the antimalarial drugs amodiaquine (AQ), primaquine (PQ) and chloroquine (CQ). Photophysical experiments were carried out in aqueous solutions by steady-state and time-resolved spectrometric techniques to obtain information on the different decay pathways of the excited states of the drugs and on the transient species formed upon laser irradiation. The results showed that all three drugs possess very low fluorescence quantum yields (10−2–10−4). Laser flash photolysis experiments proved the occurrence of photoionization processes leading to the formation of a radical cation in all three systems. In the case of AQ the lowest triplet state was also detected. Together with the photophysical properties the photobiological properties of the antimalarial drugs were investigated under UV irradiation, on various biological targets through a series of in vitro assays. Phototoxicity on mouse 3T3 fibroblast and human keratinocyte cell lines NCTC-2544 was detected for PQ and CQ but not for AQ. In particular, PQ- and CQ-induced apoptosis was revealed by the externalization of phosphatidylserine. Furthermore, upon UV irradiation, the drugs caused significant variations of the mitochondrial potential ( Δψmt) measured by flow cytometry. The photodamages produced by the drugs were also evaluated on proteins, lipids and DNA. The combined approaches were useful in understanding the mechanism of phototoxicity induced by these antimalarial drugs. [ABSTRACT FROM AUTHOR]

Published
2007
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2. DNA Cleavage Induced by Photoexcited Antimalarial Drugs: A Photophysical and Photobiological Study.

Author

Aloisi, Gian Gaetano, Amelia, Matteo, Barbafina, Arianna, Latterini, Loredana, Elisei, Fausto, dall'Acqua, Francesco, Vedaldi, Daniela, Faccio, Anita, and Viola, Giampietro

Subjects
NUCLEIC acids, DEOXYRIBOSE, ABSORPTION, DICHROISM, SPECTRUM analysis, PROPERTIES of matter
Abstract

The interactions and the photosensitizing activity of three antimalarial drugs quinine (Q), mefloquine (MQ) and quinacrine (QC) toward DNA was studied. Evidences obtained by absorption and emission spectroscopy and by linear dichroism measurements indicate that these derivatives bind the macromolecule with a high affinity (binding constants Ka ∼ 105 M−1). The absorption characteristics of the drugs changed markedly by addition of DNA and their fluorescence was quenched with rate constants higher than that of diffusion. The geometry of binding involves predominantly the intercalation into the double helix. The DNA photocleavage properties of antimalarials was investigated using plasmid DNA as a model, at different [drug]/[DNA] ratios. The results indicate that mainly MQ and Q are able to induce significant photodamage to DNA. In particular the marked effect of the former drug is evidenced after treatment of photosensitized DNA by two base excision repair enzymes, formamydo-pyrimidine glycosilase (Fpg) and Endonuclease III (Endo III). From a mechanistic point of view, experiments carried out in different experimental conditions indicate that these drugs photoinduce DNA damage through singlet oxygen and/or radical cation production. These findings are further supported by the determination of two photoproducts of 2′-deoxyguanosine, which are diagnostic for Type I and Type II pathways, namely 2,2-diamino(2-deoxy-β-d-erythro-pentofuranosyl)-4-amino-5(2H)-oxazolone and (R,S)4-hydroxy-8-oxo-4,8-dihydro-2′-deoxyguanosine (4-OH-8-oxo-dGuo). Laser flash photolysis experiments carried out in the presence of DNA indicates that the excitation produces mainly the triplet state for Q and the triplet and radical cation for QC. Moreover the singlet and triplet states and radical cations of the drugs are quenched by 2′-deoxyguanosine monophosphate. The absorbances of these transients decrease with increasing DNA concentration. [ABSTRACT FROM AUTHOR]

Published
2007
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