Kinetic Characterization of the Oxidation of Esculetin by Polyphenol Oxidase and Peroxidase

Esculetin has been described as an inhibitor of tyrosinase and polyphenol oxidase and, therefore, of melanogenesis. In this work, we demonstrate that esculetin is not an inhibitor but a substrate of mushroom polyphenol oxidase (PPO) and horseradish peroxidase (POD), enzymes which oxidize esculetin, generating its o-quinone. Since o-quinones are very unstable, the usual way of determining the enzymatic activity (slope of recordings) is difficult. For this reason, we developed a chronometric method to characterize the kinetics of this substrate, based on measurements of the lag period in the presence of micromolar concentrations of ascorbic acid. The catalytic constant determined was of the same order for both enzymes. However, polyphenol oxidase showed greater affinity (a lower Michaelis constant) than peroxidase for esculetin. The affinity of PPO and POD towards oxygen and hydrogen peroxide was very high, suggesting the possible catalysis of both enzymes in the presence of low physiological concentrations of these oxidizing substrates. Taking into consideration optimum pHs of 4.5 and 7 for POD and PPO respectively, and the acidic pHs of melanosomes, the studies were carried out at pH 4.5 and 7. The in vivo pH might be responsible for the stronger effect of these enzymes on L-tyrosine and L-3,4-dihydroxyphenylanaline (L-DOPA) (towards melanogenesis) and on cumarins such as esculetin towards an alternative oxidative pathway.

[1]  J. Harborne Progress in the chemistry of organic natural products , 1975 .

[2]  R. Varón,et al.  Calculating molar absorptivities for quinones: application to the measurement of tyrosinase activity. , 2006, Analytical biochemistry.

[3]  Y. Murata,et al.  Inhibitory effects of esculetin on melanin biosynthesis. , 2004, Biological & pharmaceutical bulletin.

[4]  Y. Murata,et al.  Mushroom Tyrosinase Inhibitory Activity of Esculetin Isolated from Seeds of Euphorbia lathyris L. , 2003, Bioscience, biotechnology, and biochemistry.

[5]  S. Gorzalczany,et al.  Phenolic compounds with anti-inflammatory activity from Eupatorium buniifolium. , 2001, Planta medica.

[6]  T. Tseng,et al.  Induction of apoptosis by esculetin in human leukemia cells. , 2001, European journal of pharmacology.

[7]  F. García-Cánovas,et al.  Reactivity of horseradish peroxidase compound II toward substrates: kinetic evidence for a two-step mechanism. , 2000, Biochemistry.

[8]  T. Tseng,et al.  Inhibitory effect of esculetin on oxidative damage induced by t-butyl hydroperoxide in rat liver , 2000, Archives of Toxicology.

[9]  R. Varón,et al.  Stopped-Flow and Steady-State Study of the Diphenolase Activity of Mushroom Tyrosinase† , 2000 .

[10]  R. Varón,et al.  Stopped-flow and steady-state study of the diphenolase activity of mushroom tyrosinase. , 2000, Biochemistry.

[11]  James C. Sacchettini,et al.  Crystal structure of a plant catechol oxidase containing a dicopper center , 1998, Nature Structural Biology.

[12]  E. Solomon,et al.  Multicopper Oxidases and Oxygenases. , 1996, Chemical reviews.

[13]  M. Noguchi,et al.  Effects of piroxicam and esculetin on the MDA-MB-231 human breast cancer cell line. , 1995, Prostaglandins, leukotrienes, and essential fatty acids.

[14]  Y. Okada,et al.  Search for naturally occurring substances to prevent the complications of diabetes. II. Inhibitory effect of coumarin and flavonoid derivatives on bovine lens aldose reductase and rabbit platelet aggregation. , 1995, Chemical & pharmaceutical bulletin.

[15]  R. Varón,et al.  Oxygen Michaelis constants for tyrosinase. , 1993, The Biochemical journal.

[16]  B. Halliwell,et al.  Interactions of a series of coumarins with reactive oxygen species. Scavenging of superoxide, hypochlorous acid and hydroxyl radicals. , 1992, Biochemical pharmacology.

[17]  J. Waite,et al.  alpha,beta-Dehydro-3,4-dihydroxyphenylalanine derivatives: potential schlerotization intermediates in natural composite materials. , 1991, Archives of biochemistry and biophysics.

[18]  D. Egan,et al.  The pharmacology, metabolism, analysis, and applications of coumarin and coumarin-related compounds. , 1990, Drug metabolism reviews.

[19]  R. Varón,et al.  Kinetic study on the suicide inactivation of tyrosinase induced by catechol. , 1987, Biochimica et biophysica acta.

[20]  Koshihara Yasuko,et al.  Inhibitory effect of esculetin on 5-lipoxygenase and leukotriene biosynthesis. , 1983 .

[21]  S. Murota,et al.  Inhibitory effect of esculetin on 5-lipoxygenase and leukotriene biosynthesis. , 1983, Biochimica et biophysica acta.

[22]  M. M. Bradford A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. , 1976, Analytical biochemistry.

[23]  H. Duckworth,et al.  Physicochemical and kinetic properties of mushroom tyrosinase. , 1970, The Journal of biological chemistry.

[24]  E. Kaiser,et al.  The Mechanism of the Periodate Oxidation of Aromatic Systems. III. A Kinetic Study of the Periodate Oxidation of Catechol , 1966 .

[25]  D. Marquardt An Algorithm for Least-Squares Estimation of Nonlinear Parameters , 1963 .