Daniela Vedaldi

Investigation on the dark interaction between furocoumarins and DNA

Abstract The complexes between some furocoumarins and DNA have been studied using various physicochemical techniques. Flow-dichroism measurements data strongly support the intercalation of the planar furocoumarin molecules between two base pairs of duplex DNA. The equilibrium dialysis and spectrophotometric data show relatively low values of the association constants of the complexes and a small number of molecules able to intercalate in DNA, thus indicating that furocoumarins have a relatively low affinity for DNA in the complex formation. The biological and photobiological consequences connected with these results are discussed. The binding curves obtained using some polynucleotides and various DNA samples having different composition with regard to base pairs, have shown that the regions of the macromolecule having alternate sequences of purine and pyrimidine represent sites useful for intercalation. No preference has been observed for A-T or G-C.

Intercalation of Organic Dye Molecules into Double‐stranded DNA. Part 2: The Annelated Quinolizinium Ion as a Structural Motif in DNA Intercalators†

Abstract DNA intercalators represent an important class of compounds with a high potential as DNA-targeting drugs. In this review it is demonstrated that annelated quinolizinium derivatives such as coralyne and derivatives thereof intercalate into DNA and that this structural motif allows several variations of the substitution pattern without loss of intercalating properties. The commonly applied methods for the evaluation of the DNA association, mainly spectroscopic studies, are pointed out. In addition, studies on the biological activities of annelated quinolizinium derivatives, such as topoisomerase poisoning or cell toxicity, are highlighted.

4,5‘‐DIMETHYLANGELICIN: A NEW DNA‐PHOTOBINDING MONOFUNCTIONAL AGENT*

Abstract— 4,5′‐Dimethylangelicin is a new angular furocoumarin showing interesting photochemical and photosensitizing properties. In the dark it forms a complex with native DNA having higher values of the binding parameters than angelicin; by irradiation at 365 nm it is able to photobind with DNA several times faster than angelicin and in about the same degree as psoralen, without forming crosslinkages. It therefore behaves as a pure monofunctional reagent. The same high photobinding capacity with DNA is shown also in vivo in Ehrlich ascites tumor cells and bacterial E. coli cells.

THE PHOTOREACTION BETWEEN FUROCOUMARINS AND VARIOUS DNA WITH DIFFERENT BASE COMPOSITIONS

Abstract— The photoreactivity of psoralen and 8‐methylpsoralen towards various samples of DNA having different base‐pair compositions has been studied. The total photobinding capacity shown by the two furocoumarins increases by increasing the content of A‐T, confirming the data previously obtained using synthetic polynucleotides.

In vitro studies of the phototoxic potential of the antidepressant drugs amitriptyline and imipramine.

Amitriptyline and imipramine, two tricyclic antidepressant drugs, have been studied to evaluate their phototoxic potential using various models. Reactive oxygen species production was investigated. A negligible production of singlet oxygen was observed for both compounds whereas a significant production of superoxide anion was noted for amitriptyline in particular. Moderate red blood cell lysis under UVA light (365 nm) was induced in the presence of the two drugs at a concentration of 50 microM. Cellular phototoxicity was investigated on a murine fibroblast cell line (3T3). The two drugs were phototoxic causing cell death at a concentration of 100 microM and a UVA dose in the range of 3.3-6.6 J/cm2. Furthermore, the two drugs photosensitized the peroxidation of linoleic acid, as monitored by the formation of dienic hydroperoxides. The presence of BHA and GSH, two free radical scavengers, significantly reduced the lipid oxidation photoinduced by the drugs, suggesting a predominant involvement of radical species. Finally, the involvement of nucleic acids in the phototoxicity mechanism was also investigated using a pBR322 plasmid DNA as a model.

Excited state properties and in vitro phototoxicity studies of three phenothiazine derivatives

Abstract This work concerns a combined photophysical, photochemical and photobiological study of three drugs (psychotherapeutic agents) of the phenothiazine series: perphenazine, fluphenazine hydrochloride and thioridazine hydrochloride. The excited-state properties were first investigated by stationary and time-resolved fluorimetry and by laser flash photolysis. The spectral description was assisted by quantum-mechanical calculations with the INDO/1-CI method. In organic media the lowest excited singlet state was found to decay by fluorescence (small quantum yield) and mainly by intersystem crossing to the lowest triplet state, which is responsible for oxygen photosensitization (high yields of singlet oxygen production) and photodegradation. A further decay pathway in aqueous solutions was the photoionization process, which led to the formation of the phenothiazine radical cations and the solvated electron. After the preliminary study of the photobehavior in organic solvents and in water, the phototoxicity of the three drugs was investigated on various biological substrates through a series of in vitro assays under UVA irradiation. Photohemolysis of mouse erythrocytes and phototoxicity on cultured murine fibroblasts were observed for all three compounds. Lipid photoperoxidation was then investigated using linoleic acid as the unsaturated lipid model and isolated red blood cell membranes. The drug-induced photodamage was also evaluated on proteins by measuring the photosensitizing cross-linking in erythrocyte ghosts. The combined approach proved to be useful in understanding the mechanism by which these phenothiazine derivatives induce skin photosensitization. In particular, the photophysical properties of the compounds under investigation and the results of the study on their phototoxicity are in agreement with a mechanism that involves the radical cation of the drugs as a main intermediate.

New geiparvarin analogues from 7-(2-oxoethoxy)coumarins as efficient in vitro antitumoral agents

A new class of compounds analogues of geiparvarin is described: aldolic condensation of 3(2H)-furanones and 7-(2-oxoethoxy)coumarins followed by a very efficient dehydration protocol led to the title compounds which show good antitumoral activity against several human cell lines.

Studies on the photoreactions (365 nm) between DNA and some methylpsoralens

Abstract While many methyl derivatives of psoralen are very active as skin-photosensitizers, some others have a small activity or are practically inactive. This difference is not explicable in terms of different capacity of photobinding to DNA. Other factors are important, especially the ability to form cross-linkings in DNA. In fact, as a result of a comparison of a group of methylpsoralen derivatives, a good correlation has been found between the skin-photosensitizing potencies of the various compounds, as evaluated by determining the minimum irradiation time necessary for the production of erythema on guinea pig skin, and the amounts of cross-linking formed in DNA as a function of the time of irradiation.

Synthesis of a new class of pyrrolo[3,4-h]quinazolines with antimitotic activity

A new series of pyrrolo[3,4-h]quinazolines was conveniently prepared with a broad substitution pattern. A large number of derivatives was obtained and the cellular cytotoxicity was evaluated in vitro against 5 different human tumor cell lines with GI₅₀ values reaching the low micromolar level (1.3-19.8 μM). These compounds were able to induce cell death mainly by apoptosis through a mitochondrial dependent pathway. Selected compounds showed antimitotic activity and a reduction of tubulin polymerization in a concentration-dependent manner. Moreover, they showed anti-angiogenic properties since reduced in vitro endothelial cell migration and disrupted HUVEC capillary-like tube network in Matrigel.

Pyrrolo[3,2-h]quinazolines as photochemotherapeutic agents.

Heteroanalogues of angelicin, pyrrolo[3,2‐h]quinazolines, were synthesized with the aim of obtaining new potent photochemotherapeutic agents. Many derivatives caused a significant decrease in cell proliferation in several human tumor cell lines after irradiation with UVA light (GI50=15.2–0.2 μM). Their phototoxicity effected apoptosis in Jurkat cells with the involvement of mitochondria (as determined by the loss of mitochondrial membrane potential and production of reactive oxygen species) and lysosomes. The phototoxicity of these compounds could be explained by lipid peroxidation.