4‐n‐butylresorcinol, a highly effective tyrosinase inhibitor for the topical treatment of hyperpigmentation
L Kolbe, T Mann, W Gerwat, J Batzer… - Journal of the …, 2013 - Wiley Online Library
L Kolbe, T Mann, W Gerwat, J Batzer, S Ahlheit, C Scherner, H Wenck, F Stäb
Journal of the European Academy of Dermatology and Venereology, 2013•Wiley Online LibraryBackground Hyperpigmentary disorders like melasma, actinic and senile lentigines are a
major cosmetic concern. Therefore, many topical products are available, containing various
active ingredients aiming to reduce melanin production and distribution. The most prominent
target for inhibitors of hyperpigmentation is tyrosinase, the key regulator of melanin
production. Many inhibitors of tyrosinase are described in the literature; however, most of
them lack clinical efficacy. Methods We were interested in evaluating the inhibition of skin …
major cosmetic concern. Therefore, many topical products are available, containing various
active ingredients aiming to reduce melanin production and distribution. The most prominent
target for inhibitors of hyperpigmentation is tyrosinase, the key regulator of melanin
production. Many inhibitors of tyrosinase are described in the literature; however, most of
them lack clinical efficacy. Methods We were interested in evaluating the inhibition of skin …
Abstract
Background Hyperpigmentary disorders like melasma, actinic and senile lentigines are a major cosmetic concern. Therefore, many topical products are available, containing various active ingredients aiming to reduce melanin production and distribution. The most prominent target for inhibitors of hyperpigmentation is tyrosinase, the key regulator of melanin production. Many inhibitors of tyrosinase are described in the literature; however, most of them lack clinical efficacy.
Methods We were interested in evaluating the inhibition of skin pigmentation by well‐known compounds with skin‐whitening activity like hydroquinone, arbutin, kojic acid and 4‐n‐butylresorcinol. We compared the inhibition of human tyrosinase activity in a biochemical assay as well as inhibition of melanin production in MelanoDerm™ skin model culture. For some compounds, the in vivo efficacy was tested in clinical studies.
Results Arbutin and hydroquinone only weakly inhibit human tyrosinase with a half maximal inhibitory concentration (IC50) in the millimolar range. Kojic acid is 10 times more potent with an IC50 of approximately 500 μmol/L. However, by far the most potent inhibitor of human tyrosinase is 4‐n‐butylresorcinol with an IC50 of 21 μmol/L. In artificial skin models, arbutin was least active with an IC50 for inhibition of melanin production > 5000 μmol/L. Kojic acid inhibited with an IC50 > 400 μmol/L. Interestingly, hydroquinone inhibited melanin production in MelanoDerms with an IC50 below 40 μmol/L, probably due to a mechanism different from tyrosinase inhibition. Again, 4‐n‐butylresorcinol was the most potent inhibitor with an IC50 of 13.5 μmol/L. In vivo efficacy of 4‐n‐butyl‐resorcinol was confirmed in clinical studies. Subjects with age spots on the forearm treated twice daily two age spots with a formula containing 4‐n‐butylresorcinol and two control age spots with the corresponding vehicle. Within 8 weeks, 4‐n‐butylresorcinol reduced visibly the appearance of age spots, while the control spots showed no improvement. A second study showed that 4‐butylresorcinol was more effective than 4‐hexylresorcinol and 4‐phenylethylresorcinol.
Conclusion The present in vitro and in vivo data prove the high inhibitory capacity of 4‐n‐butylresorcinol on human tyrosinase activity, exceeding by far the potency of hydroquinone, arbutin and kojic acid. The resulting clinical improvement of skin hyperpigmentations reveals 4‐n‐butylresorcinol as a very valuable active compound for the management of pigmentation disorders.
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