1. Academic Validation
  2. Conversion to purpurogallin, a key step in the mechanism of the potent xanthine oxidase inhibitory activity of pyrogallol

Conversion to purpurogallin, a key step in the mechanism of the potent xanthine oxidase inhibitory activity of pyrogallol

  • Free Radic Biol Med. 2017 May;106:228-235. doi: 10.1016/j.freeradbiomed.2017.02.037.
Sari Honda 1 Yuya Fukuyama 1 Hisashi Nishiwaki 2 Akiko Masuda 3 Toshiya Masuda 4
Affiliations

Affiliations

  • 1 Graduate School of Human Life Science, Osaka City University, Osaka 558-8585, Japan.
  • 2 Graduate School of Agriculture, Ehime University, Matsuyama 790-8566, Japan.
  • 3 Faculty of Human Life Science, Shikoku University, Tokushima 771-1192, Japan.
  • 4 Graduate School of Human Life Science, Osaka City University, Osaka 558-8585, Japan. Electronic address: masuda_t@life.osaka-cu.ac.jp.
Abstract

In this study, the mechanism of the Xanthine Oxidase (XO) inhibitory activity of pyrogallol, the main inhibitor found in roasted coffee, was investigated. Pyrogallol was unstable and readily converted to purpurogallin in a pH 7.4 solution, a physiological model of human body fluids. The XO inhibitory activity of the produced purpurogallin was higher than that of pyrogallol, as evidenced by comparing their IC50 values (0.2µmolL-1 for purpurogallin, 1.6µmolL-1 for pyrogallol). The XO activity of pyrogallol was enhanced by pre-incubation in pH 7.4 solution. Although the initial XO inhibitory activity of 4-methylpyrogallol was weak (IC50 33.3µmolL-1), its XO inhibitory activity was also enhanced by pre-incubation in the pH 7.4 solution. In contrast, 5-methylpyrogallol, which could not be transformed into corresponding purpurogallin derivatives, did not show XO inhibitory activity before or after incubation in pH 7.4 solution. Molecular docking simulations clarified that purpurogallins have stronger affinities for XO than corresponding pyrogallols. These results revealed that the potent XO inhibitory activity seemingly observed in pyrogallol is actually derived from its chemical conversion, under alkaline conditions, into purpurogallin.

Keywords

Chemical mechanism; Physiological pH; Purpurogallin; Pyrogallol; Xanthine oxidase inhibition.

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