Radical production during tyrosinase reaction, dopa-melanin formation, and photoirradiation of dopa-melanin

Abstract

It has been suggested that superoxide anion (O2-) may be produced during eumelanin formation and during the photoirradiation of eumelanin, but no direct evidence for this has yet been reported (although O2- production during photoirradiation of pheomelanin has been shown). In this report, the production of O2- was investigated during the formation and photoirradiation of dopa-melanin, a synthetic eumelanin. It was found that cytochrome c was reduced during the tyrosinase reaction and dopa-melanin formation in vitro; this reduction could not be inhibited by superoxide dismutase (SOD). When dopa-melanin was irradiated by UV radiation or by visible light, high nitroblue tetrazolium (NBT) reduction was observed; this reduction was proportional to the light energy and the amount of dopa-melanin. NBT reduction by visible light could be slightly inhibited by SOD, but a 12% decrease of NBT reduction by UV radiation could be shown with the addition of SOD. These observations indicate that some radicals were produced during the tyrosine reaction and dopa-melanin formation. Further, when dopa-melanin was irradiated, radicals were also produced, some of which were thought to consist of O2-, but others were unknown.