Naoki Miyata scite author profile

To characterize fullerenes (C(60) and C(70)) as photosensitizers in biological systems, the generation of active oxygen species, through energy transfer (singlet oxygen (1)O(2)) and electron transfer (reduced active oxygen radicals such as superoxide anion radical O(2)(-)* and hydroxyl radical *OH), was studied by a combination of methods, including biochemical (DNA-cleavage assay in the presence of various scavengers of active oxygen species), physicochemical (EPR radical trapping and near-infrared spectrometry), and chemical methods (nitro blue tetrazolium (NBT) method). Whereas (1)O(2) was generated effectively by photoexcited C(60) in nonpolar solvents such as benzene and benzonitrile, we found that O(2)(-)* and *OH were produced instead of (1)O(2) in polar solvents such as water, especially in the presence of a physiological concentration of reductants including NADH. The above results, together with those of a DNA cleavage assay in the presence of various scavengers of specific active oxygen species, indicate that the active oxygen species primarily responsible for photoinduced DNA cleavage by C(60) under physiological conditions are reduced species such as O(2)(-)* and *OH.

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Epigenetic Status of Gdnf in the Ventral Striatum Determines Susceptibility and Adaptation to Daily Stressful Events

Uchida

Hara

Kobayashi

et al. 2011

Neuron

353

318

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Stressful events during adulthood are potent adverse environmental factors that can predispose individuals to psychiatric disorders, including depression; however, many individuals exposed to stressful events can adapt and function normally. While stress vulnerability may influence depression, the molecular mechanisms underlying the susceptibility and adaptation to chronic stress within the brain are poorly understood. In this study, two genetically distinct mouse strains that exhibit different behavioral responses to chronic stress were used to demonstrate how the differential epigenetic status of the glial cell-derived neurotrophic factor (Gdnf) gene in the ventral striatum modulates susceptibility and adaptation to chronic stress. Our results suggest that the histone modifications and DNA methylation of the Gdnf promoter have crucial roles in the control of behavioral responses to chronic stress. Our data provide insights into these mechanisms, suggesting that epigenetic modifications of Gdnf, along with genetic and environmental factors, contribute to behavioral responses to stress.

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Solubilization of fullerenes into water with polyvinylpyrrolidone applicable to biological tests

Yamakoshi¹,

Yagami²,

Fukuhara³

et al. 1994

J. Chem. Soc., Chem. Commun.

270

222

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Identification of Cell-Active Lysine Specific Demethylase 1-Selective Inhibitors

et al. 2009

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Lysine specific demethylase 1 (LSD1) plays a key role in the regulation of gene expression by removing the methyl groups from methylated Lys4 of histone H3 (H3K4). Here we report the identification of the first small-molecule LSD1-selective inhibitors. These inhibitors show in vivo H3K4-methylating activity and antiproliferative activity and should be useful as lead structures for anticancer drugs and as tools for studying the biological roles of LSD1.

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Naoki Miyata

Active Oxygen Species Generated from Photoexcited Fullerene (C₆₀) as Potential Medicines: O₂^-^•versus¹O₂

Epigenetic Status of Gdnf in the Ventral Striatum Determines Susceptibility and Adaptation to Daily Stressful Events

Solubilization of fullerenes into water with polyvinylpyrrolidone applicable to biological tests

Identification of Cell-Active Lysine Specific Demethylase 1-Selective Inhibitors

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About

Naoki Miyata

Active Oxygen Species Generated from Photoexcited Fullerene (C60) as Potential Medicines: O2-•versus1O2

Epigenetic Status of Gdnf in the Ventral Striatum Determines Susceptibility and Adaptation to Daily Stressful Events

Solubilization of fullerenes into water with polyvinylpyrrolidone applicable to biological tests

Identification of Cell-Active Lysine Specific Demethylase 1-Selective Inhibitors

Contact Info

Product

Resources

About

Active Oxygen Species Generated from Photoexcited Fullerene (C₆₀) as Potential Medicines: O₂^-^•versus¹O₂