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The interactions of dietary carotenoids, and particularly the xanthophylls in the macula, with singlet oxygen and three different oxy-radicals, (hydroxyl radical, nitrogen dioxide and the superoxide radical anion) are compared using pulsed laser and γ-techniques. The results give possible molecular mechanisms for the switch from anti-oxidant (protection) by carotenoids to pro-oxidant (damage) by carotenoids. The participation of oxygen in radical mechanisms in the presence of different carotenoids is compared for the different radicals. It is shown that the mechanistic role of oxygen differs very significantly for anti-/pro-oxidation by hydroxyl radicals when compared to nitrogen dioxide. Lutein was found to be an extremely good cell protector against hydroxyl radicals at all oxygen concentrations, including under physiological conditions.

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Carotenoid pigments, particularly ß-carotene and lycopene, are consumed in human foodstuffs and play a vital role in maintaining health. ß-carotene is known to quench singlet oxygen and can have strong antioxidant activity. As such, it was proposed that ß-carotene might reduce the risk of cancer. Epidemiological studies found inverse relationships between cancer risk and ß-carotene intake or blood levels. However, clinical trials failed to support those findings and ß-carotene supplementation actually increased lung cancer incidence in male smokers. Early experimental animal studies found dietary ß-carotene inhibited UV-induced skin cancers. Later studies found that ß-carotene supplementation exacerbated UV-carcinogenic expression. The discrepancies of these results were related to the type of diet the animals consumed. Lycopene has been associated with reduced risk of lethal stage prostate cancer. Other carotenoids, e.g., lutein and zeaxanthin, play a vital role in visual health. Numerous studies of molecular mechanisms to explain the carotenoids' mode of action have centered on singlet oxygen, as well as radical reactions. In cellular systems, singlet oxygen quenching by carotenoids has been reported but is more complex than in organic solvents. In dietary ß-carotene supplement studies, damaging pro-oxidant reactivity can also arise. Reasons for this switch are likely due to the properties of the carotenoid radicals themselves. Understanding singlet oxygen reactions and the anti-/pro-oxidant roles of carotenoids are of importance to photosynthesis, vision and cancer.

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Reducing radiation damage is important and dietary antioxidants that can protect cells from such damage are of value. Dietary lycopene, a carotenoid found in tomatoes, protects human lymphoid cell membranes from damage by γ-radiation. We report that such protective effects are remarkably reduced as the oxygen concentration increases - near zero at 100% oxygen from fivefold protection at 20% oxygen and, dramatically, from 50-fold protection at 0% oxygen. Such huge differences imply that under higher oxygen concentrations lycopene could lead to improved cancer therapy using γ-radiation. The cells are not efficiently protected from the superoxide radical by lycopene. Noncellular studies suggest molecular mechanisms for the oxygen effect.

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Natural compounds which can behave as antioxidants and protect against UV-radiation may well have medical and cosmetic value. Usnic acid, which can be obtained from lichens offer such a potential. The latter is one of the best known and reviewed compounds present in lichens and exhibits many properties of value such as antibiotic, antitumor and UV-filter-effects. We report studies of the potential antioxidant and prooxidant activity of usnic acid extracted from Xanthoparmelia farinosa (Vainio) using a human lymphocyte cell line (Jurkat-cells) under UV-B-irradiation. Cell survival and cell metabolism were determined using different conditions such as usnic acid concentration and UVB dose. Compared to the controls the cells incubated with usnic acid in concentrations of 1 x 10(-8) and 1 x 10(-6) M showed a higher cell survival and a normal metabolism under low doses of UVB-light up to 0.1 J/cm(2). When both higher UVB doses (up to 14 J/cm(2)) and higher concentrations of usnic acid (1 x 10(-4) M) where used, the opposite effect was observed. It is concluded that these effects are due to bifunctional (a switch of) anti-oxidative-pro-oxidative behaviour of usnic acid under UV-B-irradiation.

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Fundamental photophysical properties have been obtained for six polyaromatics, calycine, usnic acid, vicanicine, 1-Cl-pannerine and epiphorelic acids I and II, extracted from Antarctic lichens--potential future sunscreens. None of the lichen compounds produced a measurable amount of triplet states and the singlet oxygen quantum yield was also very low ranging from 0.003 to 0.06. However, three exhibited triplet energy levels which may be above that of thymine. The radical cations of calycine and usnic acid were generated via pulse radiolysis and were observed to be quenched by vitamin C, vitamin E and Trolox.

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Natural substances extracted from lichens and boldo tree were tested in vivo and in vitro as possible UV-light filters. The protection factors were compared with that found for the references: Nivea sun Spray LSF 5, octylmethoxycinnamate (OMC) and 4-tert.-butyl-4'-methoxy dibenzoylmethane (BM-DBM). The stability of the single compounds was studied through UV-Vis spectroscopy. Usnic acid resulted to be the best UVB filter, with an in vivo protection factor similar to Nivea sun Spray LSF 5. Most of the single compounds studied in vitro resulted to have higher or similar filtering power than octylmethoxycinnamate. The protection factors as well as the good UV-light absorption of their photo-products suggest that these natural substances may be useful as new filters in sun-screen preparations.

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The cytotoxic and photocytotoxic effects of two water-soluble fullerene derivatives, a dendritic C(60) mono-adduct and the malonic acid C(60) tris-adduct were tested on Jurkat cells. Cell growth and vitality were determined by a cell counting and staining technique. After 2 weeks cultivation in the presence of the fullerene derivatives, it was found that only the dendritic mono-adduct inhibits cell growth (within 2 weeks the cell number decreased to 19%), whereas the tris-malonic acid adduct has little effect. The growth inhibition is reversible; cultivating the same cells further in the absence of fullerene, the cell number increased to 106.4%. Other experiments showed that these fullerene derivatives become toxic when irradiated with UVA or UVB light. The cell death is mainly caused by membrane damage and it is UV dose-dependent. Tris-malonic acid fullerene was found to be more phototoxic than the dendritic derivative. This result is in contrast to the singlet oxygen quantum yields determined for the two compounds. We propose that the two fullerene derivatives may interact with the cell membrane in different ways thus causing the observed effects. Further experiments will be done to determine the location and concentration of the two compounds in and on the cells.

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