Abstract
Several resorcinol derivatives were synthesized and their effects on the survival rate of B16 murine melanoma cells, melanin production, and tyrosinase activity were investigated with an aim to evaluate their skin whitening effect. Twelve resorcinol derivatives were synthesized by esterification with three functional groups (L-ascorb-6-yl, ethyl, and glyceryl) linked via four alkyl chains of varying lengths (n = 2–5) at the 4-position. The structures of the 12 resorcinol derivatives were confirmed by Nuclear Magnetic Resonance (NMR). The derivatives were added to B16 murine melanoma cells and the melanin contents in the cells and culture medium were measured. To measure the tyrosinase activity, the substrate L-DOPA was added to a mushroom-derived tyrosinase solution, and the inhibition of the tyrosinase activity was determined. At 10 µM, the resorcinol derivatives did not affect the survival of the B16 murine melanoma cells, but the melanin content was reduced. At 1 µM, the derivatives significantly inhibited the tyrosinase activity in the mushroom-derived tyrosinase solution. A plot of the inhibitory effect on melanin production against the cLogP value for each resorcinol derivative indicated that the highest inhibition occurred at a cLogP value of approximately 2. Therefore, these resorcinol derivatives are expected to serve as effective skin whitening agents.
Highlights
Human skin color is affected by the quantities of three pigments: melanin, hemoglobin, and carotene
Bovine serum albumin (BSA), mushroom tyrosinase, 3,4-dihydroxy-L-phenylalanine (L-DOPA), and sodium orthovanadate 90% were purchased from Sigma-Aldrich Co
Thestudy present study to the evaluate of synthesized derivatives viability and the amount melaninofproduced in B16 melanoma cells
Summary
Human skin color is affected by the quantities of three pigments: melanin, hemoglobin, and carotene. Melanin plays the most important role [1,2,3]. Melanin is an indole substance produced by the enzymatic oxidation of tyrosine. Melanin is a key pigment that absorbs ultraviolet radiation, serving as a biological defense for the skin. Melanin is produced by melanosomes in epidermal basal cells (melanocytes) [4]. Excessive melanin deposition in the epidermal layer may cause liver spots (age spots), senile lentigines, and other pigmentation disorders. Excessive melanin production and reduced melanin excretion, associated with abnormal melanin turnover, may either cause melanin deposition in the epidermal layer or pigmentation disorders
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
