This copper-containing enzyme catalyzes the rate-limiting step for the melanin skin pigment bioproduction. Tyrosinase inhibitors can be exploited as skin whitening agents and food preservatives, opening new scenarios in food, cosmetics, agriculture and medicine. Despite the availability of natural inhibitors (hydroquinone, α-arbutin, kojic acid, retinoids, azelaic acid, resveratrol, caftaric acid, valonea tannin, chrysosplenetin and phenylethyl resorcinol), several synthetic compounds were proposed to overcome side effects and to improve the efficacy of natural agents. This chapter will gather the recent advances about synthetic tyrosinase inhibitors from the MedChem perspective, providing new suggestions for the scaffold-based design of innovative compounds.
Drug design of tyrosinase inhibitors
Melfi F.Primo
;Carradori S.
Secondo
;Campestre C.Ultimo
2024-01-01
Abstract
This copper-containing enzyme catalyzes the rate-limiting step for the melanin skin pigment bioproduction. Tyrosinase inhibitors can be exploited as skin whitening agents and food preservatives, opening new scenarios in food, cosmetics, agriculture and medicine. Despite the availability of natural inhibitors (hydroquinone, α-arbutin, kojic acid, retinoids, azelaic acid, resveratrol, caftaric acid, valonea tannin, chrysosplenetin and phenylethyl resorcinol), several synthetic compounds were proposed to overcome side effects and to improve the efficacy of natural agents. This chapter will gather the recent advances about synthetic tyrosinase inhibitors from the MedChem perspective, providing new suggestions for the scaffold-based design of innovative compounds.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
