Highly hydroxylated or γ-cyclodextrin-bicapped water-soluble derivative of fullerene: The antioxidant ability assessed by electron spin resonance method and β-carotene bleaching assay

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• 作者：Shinya Kato ; Hisae Aoshima ; Yasukazu Saitoh ; Nobuhiko Miwa
• 关键词：Water-soluble fullerene ; Antioxidant ability ; Electron spin resonance (ESR) method ; β ; -Carotene bleaching assay
• 刊名：Bioorganic and Medicinal Chemistry Letters
• 出版年：2009
• 出版时间：15 September 2009
• 年：2009
• 卷：19
• 期：18
• 页码：5293-5296
• 全文大小：483 K

文摘

Antioxidant ability of the water-soluble derivative of fullerene (C60), prepared by high-degree hydroxylation [C60-(OH)₃₂·8H₂O] or C60/γ-cyclodextrin (1:2 mol/mol) clathrate formation [C60/(γ-CD)₂], was assessed by electron spin resonance method and β-carotene bleaching assay. These C60 derivatives have an ability to diminish a 1:2:2:1 quartet ESR spectrum attributed to hydroxyl radicals (OH) as shown by DMPO-spin trap/ESR method. Meanwhile, a singlet radical-signal different from OH-attributed signals increased in a manner dependent on concentrations of C60-(OH)₃₂·8H₂O. This might suggest that C60-(OH)₃₂·8H₂O scavenges OH owing to dehydrogenation of C60-(OH)₃₂·8H₂O, and is simultaneously oxidized to a stable radical species, which may be a dehydrogenated fullerenol radical (C60-O). Furthermore, these water-soluble derivatives of C60 suppressed fading of yellowish color characteristic of intact β-carotene in β-carotene bleaching assay. Antioxidant abilities of these derivatives were assessed as retention of yellowish color (viz absorbance at 470 nm) for 180 min. Namely, β-carotene-attributed chromaticity ( % relative absorbance at 470 nm compared with the control) after 180 min was 69 % for C60-(OH)₃₂·8H₂O (400 μM: C60-eq.), and 32 % for C60/(γ-CD)₂ (400 μM: C60-eq.), whereas it was 6 % for le value=""smcaps"">l(+)-ascorbic acid (400 μM) which is hydrophilic, and 85 % for (±)-α-tocopherol (400 μM) which is lipophilic, respectively. Thus C60-(OH)₃₂·8H₂O and C60/(γ-CD)₂ can scavenge OH, and have a distinct antioxidative activity in the aqueous system containing linoleic acid which is abundantly contained in the cell membrane together with other unsaturated lipids. These C60 derivatives have a potential to protect the cell membrane from oxidative stress due to OH.