Study of Umbelliferone Hydroxylation to Esculetin Catalyzed by Polyphenol Oxidase

We characterize umbelliferone, a derivative of 2,4-dihydroxycoumaric acid, as a substrate of polyphenol oxidase. This enzyme hydroxylates umbelliferone to esculetin, its o-diphenol, and then oxidizes it to o-quinone. The findings show that umbelliferone, an intermediate in one of the coumarin biosyn...

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Bibliographic Details
Published in:Biological and Pharmaceutical Bulletin 2013-07, Vol.36 (7), p.1140-1145
Main Authors: Mary of the Sea Garcia-Molina, Joseph Louis Munoz-Munoz, Francis Garcia-Molina, Joseph Neptune Rodriguez-Lopez, Francis Garcia-Canovas
Format: Article
Language:Japanese
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Summary:We characterize umbelliferone, a derivative of 2,4-dihydroxycoumaric acid, as a substrate of polyphenol oxidase. This enzyme hydroxylates umbelliferone to esculetin, its o-diphenol, and then oxidizes it to o-quinone. The findings show that umbelliferone, an intermediate in one of the coumarin biosynthesis pathways, may be transformed into its o-diphenol, esculetin, which is also an intermediate in the same pathway. The activity of the enzyme on umbelliferone was followed by measuring the consumption of oxygen, spectrophotosmetrically and by HPLC. Kinetic constants characterizing the hydroxylation process were:k cat=0.09±0.02s-1 and Km=0.17±0.06mM. The o-diphenol, esculetin, was a better substrate and when its oxidation was followed spectrophotometrically, the kinetic constants were:k cat=1.31±0.25s-1 and Km=0.035±0.002mM. Both compounds therefore can be considered as alternative substrates to L-tyrosine and L-3,4-dihydroxyphenylala-nine (L-DOPA), since both indirectly inhibit melanogenesis.
ISSN:0918-6158