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  • Substantial evidence for the rhododendrol-induced generation of hydroxyl radicals that causes melanocyte cytotoxicity and induces chemical leukoderma.

Substantial evidence for the rhododendrol-induced generation of hydroxyl radicals that causes melanocyte cytotoxicity and induces chemical leukoderma.

Journal of dermatological science (2018-07-15)
Yu Gabe, Akimitsu Miyaji, Masahiro Kohno, Akira Hachiya, Shigeru Moriwaki, Toshihide Baba
ABSTRAKT

Rhododendrol (4-(4-hydroxyphenyl)-2-butanol) has been used as a lightening/whitening cosmetic but was recently reported to induce leukoderma. Although rhododendrol has been shown to be transformed by tyrosinase to hydroxyl-rhododendrol, which is cytotoxic to melanocytes, its detailed mechanism of action including the involvement of reactive oxygen species is not clearly understood. To confirm the relationship of hydroxyl radical generation to melanocyte cytotoxicity induced by rhododendrol, this study was performed. An electron spin resonance method with a highly sensitive detection system was utilized to monitor hydroxyl radicals generated from two distinct normal human epidermal melanocyte lines with different levels of tyrosinase activity after the addition of various amounts of rhododendrol. Cytotoxicity of rhododendrol was analyzed by AlamarBlue assay under the same condition. Hydroxyl radicals were generated depending on the amounts of rhododendrol and/or tyrosinase. After the correlation between hydroxyl radical generation with melanocyte viability was confirmed, an inhibitor of oxidative stress, N-acetyl cysteine, was shown to dramatically diminish rhododendrol-induced generation of hydroxyl radicals and melanocyte cytotoxicity by increasing glutathione levels. In contrast, buthionine sulfoximine, which depletes glutathione, augmented both of those parameters. Suppressing oxidative stress would prevent and/or mitigate some phenol derivative-induced leukoderma by avoiding hydroxyl radical-initiated melanocyte cytotoxicity.

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Sigma-Aldrich
Amyloid Protein Non-Aβ Component, ≥80% (HPLC)
Sigma-Aldrich
Rhododendrol, ≥95% (LC/MS-ELSD)