Summary
Background
Ascorbic acid (AsA) has multifunctional benefits on skin beauty, such as the reduction in oxidative stress and the induction of collagen production. Among them, the prevention and improvement of skin pigmentation by AsA is a most important benefit for people. However, it is well known that AsA not only is quite unstable in formulations but it also has a low capability of skin penetration due to its hydrophilic property. In addition, existing water-soluble AsA derivatives that were developed to improve its stability also have low skin penetration.
Aim
To investigate the potential of a newly synthesized amphiphilic derivative of AsA, 3-O-Glyceryl-2-O-hexyl ascorbate (VC-HG), which has an added glyceryl group and a hexyl group, on skin beauty focusing on its skin lightening/whitening effects.
Methods
DNA microarray analysis and real-time PCR were used to clarify the effects of VC-HG on melanogenesis using B16 mouse melanoma cells. The effects of VC-HG on melanin synthesis, tyrosinase protein levels, and the inhibition of tyrosinase activity were evaluated.
Results
DNA microarray analysis revealed that treatment with VC-HG downregulated the expression of genes encoding tyrosinase and MyosinVa. Further, real-time PCR analysis showed the downregulation of tyrosinase, MyosinVa, Rab27a, and Kinesin mRNAs following VC-HG treatment. In addition, VC-HG caused decreases in tyrosinase protein levels and melanin synthesis.
Conclusion
We conclude that VC-HG has an impact on skin lightening/whitening by inhibiting tyrosinase protein synthesis and interfering with intracellular melanosome transport.
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