Paolo Di Mascio scite author profile

Singlet oxygen ( 1 O 2 ) is a biologically relevant reactive oxygen species capable of efficiently reacting with cellular constituents. The resulting oxidatively generated damage to nucleic acids, membrane unsaturated lipids, and protein components has been shown to be implicated in several diseases, including arthritis, cataracts, and skin cancer. Singlet oxygen may be endogenously produced, among various possibilities, by myeloperoxidase, an enzyme implicated in inflammation processes, and also efficiently in skin by the UVA component of solar radiation through photosensitization reactions. Emphasis is placed in this Review on the description of the main oxidation reactions initiated by 1 O 2 and the resulting modifications within key cellular targets, including guanine for nucleic acids, unsaturated lipids, and targeted amino acids. Most of these reactions give rise to peroxides and dioxetanes, whose formation has been rationalized in terms of [4+2] cycloaddition and 1,2-cycloaddition with dienes + olefins, respectively. The use of [ 18 O]-labeled thermolabile endoperoxides as a source of [ 18 O]-labeled 1 O 2 has been applied to study mechanistic aspects and preferential targets of 1 O 2 in biological systems. A relevant major topic deals with the search for the molecular signature of the 1 O 2 formation in targeted biomolecules within cells. It may be anticipated that [ 18 O]-labeled 1 O 2 and labeled peroxides in association with sensitive mass spectrometric methods should constitute powerful tools for this purpose.

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Novel rhythms of N ¹ ‐acetyl‐N ² ‐formyl‐5‐methoxykynuramine and its precursor melatonin in water hyacinth: importance for phytoremediation

Tan¹,

Manchester²,

Mascio³

et al. 2007

FASEB j.

216

219

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N1-acetyl-N2-formyl-5-methoxykynuramine (AMFK) is a major metabolite of melatonin in mammals. To investigate whether AFMK exists in plants, an aquatic plant, water hyacinth, was used. To achieve this, LC/MS/MS with a deuterated standard was employed. AFMK was identified in any plant for the first time. Both it and its precursor, melatonin, were rhythmic with peaks during the late light phase. These novel rhythms indicate that these molecules do not serve as the chemical signal of darkness as in animals but may relate to processes of photosynthesis or photoprotection. These possibilities are supported by higher production of melatonin and AFMK in plants grown in sunlight (10,000-15,000 microW/cm2) compared to those grown under artificial light (400-450 microW/cm2). Melatonin and AFMK, as potent free radical scavengers, may assist plants in coping with harsh environmental insults, including soil and water pollutants. High levels of melatonin and AFMK in water hyacinth may explain why this plant more easily tolerates environmental pollutants, including toxic chemicals and heavy metals and is successfully used in phytoremediation. These novel findings could lead to improvements in the phytoremediative capacity of plants by either stimulating endogenous melatonin synthesis or by adding melatonin to water/soil in which they are grown.

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Singlet Molecular Oxygen Generated from Lipid Hydroperoxides by the Russell Mechanism: Studies Using¹⁸O-Labeled Linoleic Acid Hydroperoxide and Monomol Light Emission Measurements

et al. 2003

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The decomposition of lipid hydroperoxides into peroxyl radicals is a potential source of singlet oxygen ((1)O(2)) in biological systems. We report herein on evidence of the generation of (1)O(2) from lipid hydroperoxides involving a cyclic mechanism from a linear tetraoxide intermediate proposed by Russell. Using (18)O-labeled linoleic acid hydroperoxide (LA(18)O(18)OH) in the presence of Ce(4+) or Fe(2+), we observed the formation of (18)O-labeled (1)O(2) ((18)[(1)O(2)]) by chemical trapping of (1)O(2) with 9,10-diphenylanthracene (DPA) and detected the corresponding (18)O-labeled DPA endoperoxide (DPA(18)O(18)O) by high-performance liquid chromatography coupled to tandem mass spectrometry. Spectroscopic evidence for the generation of (1)O(2) was obtained by measuring (i) the dimol light emission in the red spectral region (lambda > 570 nm); (ii) the monomol light emission in the near-infrared (IR) region (lambda = 1270 nm); and (iii) the quenching effect of sodium azide. Moreover, the presence of (1)O(2) was unequivocally demonstrated by the direct spectral characterization of the near-IR light emission. For the sake of comparison, (1)O(2) deriving from the H(2)O(2)/OCl(-) and H(2)O(2)/MoO(4)(2)(-) systems or from the thermolysis of the endoperoxide of 1,4-dimethylnaphthalene was also monitored. These chemical trapping and photoemission properties clearly demonstrate that the decomposition of LA(18)O(18)OH generates (18)[(1)O(2)], consistent with the Russell mechanism and pointing to the involvement of (1)O(2) in lipid hydroperoxide mediated cytotoxicity.

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pH-dependent Interaction of Cytochrome c with Mitochondrial Mimetic Membranes

Kawai

Prado

Nunes

et al. 2005

Journal of Biological Chemistry

106

169

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The interaction of cytochrome c (cyt c) with mitochondrial mimetic vesicles of 1,2-dipalmitoyl-sn-glycero-3-phosphocholine, 1,2-dipalmitoyl-sn-glycero-3-phosphoethanolamine, and heart cardiolipin (PCPECL) was investigated over the 7.4 -6.2 pH range by means of turbidimetry and photon correlation spectroscopy. In the presence of cyt c, the decrease of pH induced an increase in vesicle turbidity and mean diameter resulting from vesicle fusion as determined by a rapid decrease in the excimer/monomer ratio of 2-(10-(1-pyrene)-decanoyl)-phosphatidylcholine (PyPC). N-acetylated cyt c and protamine, a positively charged protein, increased vesicle turbidity in a pH-independent manner, whereas albumin did not affect PCPECL vesicle turbidity. pH-dependent turbidity kinetics revealed a role for cyt c-ionizable groups with a pK a(app) of ϳ7.0. The carbethoxylation of these groups by diethylpyrocarbonate prevented cyt c-induced vesicle fusion, although cyt c association to vesicles remained unaffected. Matrix-assisted laser desorption ionization time-of-flight analysis revealed that Lys-22, Lys-27, His-33, and Lys-87 cyt c residues were the main targets for carbethoxylation performed at low pH values (<7.5). In fact, these amino acid residues belong to clusters of positively charged amino acids that lower the pK a . Thus, at low pH, protonation of these invariant and highly conserved amino acid residues produced a second positively charged region opposite to the Lys-72 and Lys-73 region in the cyt c structure. These two opposing sites allowed two vesicles to be brought together by the same cyt c molecule for fusion. Therefore, a novel pH-dependent site associating cyt c to mitochondrial mimetic membranes was established in this study.

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Paolo Di Mascio

Lycopene as the most efficient biological carotenoid singlet oxygen quencher

Singlet Molecular Oxygen Reactions with Nucleic Acids, Lipids, and Proteins

Novel rhythms of N ¹ ‐acetyl‐N ² ‐formyl‐5‐methoxykynuramine and its precursor melatonin in water hyacinth: importance for phytoremediation

Singlet Molecular Oxygen Generated from Lipid Hydroperoxides by the Russell Mechanism: Studies Using¹⁸O-Labeled Linoleic Acid Hydroperoxide and Monomol Light Emission Measurements

pH-dependent Interaction of Cytochrome c with Mitochondrial Mimetic Membranes

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Paolo Di Mascio

Lycopene as the most efficient biological carotenoid singlet oxygen quencher

Singlet Molecular Oxygen Reactions with Nucleic Acids, Lipids, and Proteins

Novel rhythms of N 1 ‐acetyl‐N 2 ‐formyl‐5‐methoxykynuramine and its precursor melatonin in water hyacinth: importance for phytoremediation

Singlet Molecular Oxygen Generated from Lipid Hydroperoxides by the Russell Mechanism: Studies Using18O-Labeled Linoleic Acid Hydroperoxide and Monomol Light Emission Measurements

pH-dependent Interaction of Cytochrome c with Mitochondrial Mimetic Membranes

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Product

Resources

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Novel rhythms of N ¹ ‐acetyl‐N ² ‐formyl‐5‐methoxykynuramine and its precursor melatonin in water hyacinth: importance for phytoremediation

Singlet Molecular Oxygen Generated from Lipid Hydroperoxides by the Russell Mechanism: Studies Using¹⁸O-Labeled Linoleic Acid Hydroperoxide and Monomol Light Emission Measurements