Abstract
Melanin is responsible for pigmentation of skin and hair. It protects the skin from the harmful effects of UV radiation; however, its abnormal production may lead to different diseases such as hyper-pigmentation or vitiligo. Tyrosinase is a key enzyme in melanin production, therefore inhibitors of this enzyme should have broad application. Due to the adverse effects of synthetic inhibitors currently being used, the search for new inhibitors, especially natural ones, is needed. The methanolic extracts of 80 plants were tested for their tyrosinase inhibitory activities by spectrophotometry at 492 nm. The inhibition mode of effective plant extracts was determined using the Lineweaver-Burk plots. Among these plant extracts, Alhagi camelorum (camel thorn), Camelia sinensis (green tea), Cuminum cyminum (Cumin), Lawsonia inermis (henna), Quercus infectoria (masso), and Vaccinium arctostaphylos (Caucasian whortleberry) were identified as tyrosinase inhibitors with inhibitory effect of more than 50% at concentrations of 1.14 g L−1. The inhibition mode of four newly found effective plant extracts showed that A. camelorum and V. arctostaphylos inhibit the enzyme in a competitive manner whereas L. inermis and Q. infectoria have mixed inhibitory effect. To recommend these plant extracts for hyper-pigmentation disorders and other applications, further in vitro and in vivo studies are needed.
Acknowledgments
This study has been supported by a grant from Kerman Physiology Research Centre, Kerman University of Medical Sciences. The authors wish to thank Dr Masoud Mirtajaddini from the Biology Department, Faculty of Science, Bahonar University of Kerman, for the identification of some samples. We appreciate Miss Minoo Mahmoodi for her English editing.