Abstract
Carotenoid intake has been associated with the decrease of the incidence of some chronic diseases by minimizing the in vivo oxidative damages induced by reactive oxygen (ROS) and nitrogen species (RNS). The carotenoids are well-known singlet oxygen quenchers; however, their capacity to scavenge other reactive species, such as peroxyl radical (ROO•), hydroxyl radical (HO•), hypochlorous acid (HOCl) and anion peroxynitrite (ONOO−), still needs to be more extensively studied, especially using membrane-mimicking systems, such as liposomes. Moreover, the identification of carotenoids possessing high antioxidant capacity can lead to new alternatives of drugs or nutritional supplements for prophylaxis or therapy of pathological conditions related to oxidative damages, such as cardiovascular diseases. The capacity to scavenge ROO•, HO•, HOCl and ONOO− of seven carotenoids found in marine organisms was determined in liposomes based on the fluorescence loss of a fluorescent lipid (C11-BODIPY581/591) due to its oxidation by these reactive species. The carotenoid-bearing hydroxyl groups were generally more potent ROS scavengers than the carotenes, whilst β-carotene was the most efficient ONOO− scavenger. The role of astaxanthin as an antioxidant should be highlighted, since it was a more potent scavenger of ROO•, HOCl and ONOO− than α-tocopherol.
Highlights
Carotenoids are yellow to red fat-soluble pigments found in plants, microorganisms and animals [1,2,3,4].Animals do not synthesize carotenoids de novo, and those found in animals are either directly accumulated from food or partly modified through metabolic reactions
Evidence from epidemiological studies and some supplementation human trials have associated the carotenoid intake with the decrease of the incidence of some chronic diseases [5,6], such as cardiovascular diseases and some types of cancer. This effect is hypothetically attributed to the antioxidant properties of the carotenoids, which minimize the in vivo oxidative damages induced by reactive oxygen species (ROS) and reactive nitrogen species (RNS) [7,8]
Scavenging capacities were calculated considering as reference: trolox (1.00) for ROO and HO, cysteine (1.00) for hypochlorous acid (HOCl) and ascorbic acid (1.00) for ONOO−
Summary
Carotenoids are yellow to red fat-soluble pigments found in plants, microorganisms and animals [1,2,3,4].Animals do not synthesize carotenoids de novo, and those found in animals are either directly accumulated from food or partly modified through metabolic reactions. Except for neoxanthin and its derivatives, allenic carotenoids and all acetylenic carotenoids, such as fucoxanthin, are originated from marine animals and seaweeds [4]. Evidence from epidemiological studies and some supplementation human trials have associated the carotenoid intake with the decrease of the incidence of some chronic diseases [5,6], such as cardiovascular diseases and some types of cancer. This effect is hypothetically attributed to the antioxidant properties of the carotenoids, which minimize the in vivo oxidative damages induced by reactive oxygen species (ROS) and reactive nitrogen species (RNS) [7,8]
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