Abstract
Cyclic nigerosyl nigerose (CNN) is a cyclic tetrasaccharide that exhibits properties distinct from other conventional cyclodextrins. Herein, we demonstrate that treatment of B16 melanoma with CNN results in a dose-dependent decrease in melanin synthesis, even under conditions that stimulate melanin synthesis, without significant cytotoxity. The effects of CNN were prolonged for more than 27 days, and were gradually reversed following removal of CNN. Undigested CNN was found to accumulate within B16 cells at relatively high levels. Further, CNN showed a weak but significant direct inhibitory effect on the enzymatic activity of tyrosinase, suggesting one possible mechanism of hypopigmentation. While a slight reduction in tyrosinase expression was observed, tyrosinase expression was maintained at significant levels, processed into a mature form, and transported to late-stage melanosomes. Immunocytochemical analysis demonstrated that CNN treatment induced drastic morphological changes of Pmel17-positive and LAMP-1–positive organelles within B16 cells, suggesting that CNN is a potent organelle modulator. Colocalization of both tyrosinase-positive and LAMP-1–positive regions in CNN-treated cells indicated possible degradation of tyrosinase in LAMP-1–positive organelles; however, that possibility was ruled out by subsequent inhibition experiments. Taken together, this study opens a new paradigm of functional oligosaccharides, and offers CNN as a novel hypopigmenting molecule and organelle modulator.
Highlights
The main functions of carbohydrates are to provide sources of energy and to act as taste enhancers
We first examined the effects of Cyclic nigerosyl nigerose (CNN) on melanin synthesis in B16 mouse melanoma cells
CNN reduced melanin synthesis under conditions known to stimulate melanin synthesis We examined the effects of CNN treatment on B16 cells under conditions known to stimulate melanin synthesis. α-MSH is a peptide hormone that stimulates melanogenesis by activating the cyclic adenosine monophosphate and protein kinase A signaling cascades after binding to melanocortin receptors
Summary
The main functions of carbohydrates are to provide sources of energy and to act as taste enhancers. Cyclodextrins, the most well-known and well-studied cyclic oligosaccharides, are comprised of (α-1,4)-linked α-d-glucopyranose units, and form a bucket-shaped structure with a hydrophobic cavity and a hydrophilic exterior. Because of their unique shape and molecular structure, cyclodextrins can create an inclusion complex with hydrophobic molecules. These characteristics are utilized for improving the solubility of hydrophobic drugs, stabilizing proteins, and controlling the release of drugs. For these reasons, cyclodextrins are widely used excipients for pharmaceutical agents
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