Kohda and Tanaka [44] reported crude preparations of several glycoside hydrolases for the hydrolysis of ginseng ginsenosides; cellulase and amylase exhibited very low hydrolytic activities, whereas pectinase, naringinase, and hesperidinase had much higher activities for hydrolyzing ginsenosides. A permeability study of Rapidase-treated red ginseng extract in
rat skin was conducted by using Franz diffusion cells. The polyphenol contents of the samples transported through the rat skin was significantly increased over time (Fig. 5). The Duvelisib clinical trial skin permeability of the red ginseng extract treated with Rapidase was higher than that of the control. In particular, after 4 h, the skin permeability of the red ginseng extract treated with Rapidase showed a significant increase (p < 0.05) compared with that of the control. Although total polyphenol contents are similar in the presence or absence of Rapidase treatment, Rapidase treatment showed a significant improvement of skin permeability. This result suggests that Rapidase can also act on polyphenol glycosides to produce aglycone
forms of polyphenols. Recently, the study to maximize the bioactivity of plant extracts via the enzyme reaction has been performed in the cosmetic industry using natural compounds [45]. The bioactive ingredients of plants mostly include mixtures of compounds that are present in the form of aglycones and hydrophilic glycosides. However, Volasertib mouse glycosides have some difficulties in their application for skin cosmetics attributable to their low skin permeability. By contrast, aglycone, a hydrophobic polyphenol, can permeate human skin [46]. Wiechers [47] reported that low molecular weight contributes to easier skin penetration; there is a size limitation for chemical compounds and drugs to be absorbed across the human skin barrier. Therefore, Bos and Meinardi [48] reported that certain skin penetration enhancers have low molecular weight. Thus, the hydrolysis of glycoside ingredients into their aglycone
forms has attracted attention as an effective means of enhancing the 5-Fluoracil research buy permeability and, consequently, bioactivity of extracts [45]. Most commercial ginseng products are produced from chemical processes such as solvent extractions and chromatographic purifications. These processes are complicated, costly, and are usually associated with low yields of active compounds such as ginsenosides, oligosaccharides, and polysaccharides. Enzymatic extraction was found to be an easy and rapid method for the separation and concentration of bioactive compounds. Therefore, Rapidase will be a major enzyme to enhance bioactive compounds in the development of health-oriented ginseng products via enzymatic processes.