Melanin resistance of heat-processed ginsenosides from Panax ginseng berry treated with citric acid through autophagy pathway.

GFRS is the conversion product of Panax ginseng Meyer berry after citric acid heat treatment, which is rich in rare ginsenosides. However, the anti-melanin role of GFRS in the regulation of skin pigmentation and its material basis remains unclear. To compare the anti-melanin activity before and after citric acid heat treatment, we determined the effects of GFS and GFRS on tyrosinase activity and melanin lever under α-MSH stimulation and found the potential anti-melanin effect of GFRS. Further, Western blot and immunofluorescence methods were used to reveal the mechanism by which GFRS detects anti-melanin activity by promoting autophagy flux levels. In zebrafish models, GFRS inhibited endogenous melanin and tyrosinase better than arbutin and promoted the accumulation of autophagy levels in vivo. To determine the material basis of the anti-melanin effect of GFRS, HPLC was used to isolate and prepare 12 ginsenosides from GFRS, and their activity evaluation and structure-activity relationship analysis were performed. The results showed that the inhibitory effect of GFRS on melanin was Rg3 > Rg5 > Rk1 > Rd. Molecular docking showed that their docking fraction with mushroom tyrosinase was significantly better than that of arbutin, but the presence of C-20 glycosylation decreased the anti-melanin activity of Rd. To maximize the content of Rg3, Rg5, and Rk1, we optimized the process by using citric acid heat treatment of ginsenoside Rd and found that citric acid heat treatment at 100°C almost completely transformed Rd and obtained a high content of active ingredients. In summary, our data demonstrated that GFRS exerted anti-melanin effects by inducing autophagy. It was further revealed that Rg3, Rg5, and Rk1, as effective active components, could be enriched by the improved process of converting ginsenoside Rd by citric acid heat treatment.

Ginseng fruit rare saponins (GFRS) improved inflammatory response: In vitro and in vivo assessment.

Inflammation is the body's protective immune response to tissue damage. Ginseng has a long history of medicinal use, and its active ingredient ginsenosides have anti-inflammatory effects. Ginseng fruit rare saponins (GFRS) is a transformation product of ginseng saponins and rich in a variety of rare saponins. We used HPLC-DAD method to study GFRS rare saponins with ginsenoside F4, R-Rg3, SRg3, Rk1, Rg6, Rg5, Rk3 and Rh4. However, there is no study on the use of GFRS to reduce skin inflammation. This study enriched the action pathway of GFRS through network pharmacology and revealed the anti-inflammatory effect of GFRS for the first time. In vitro experiments showed that GFRS could significantly reduce the release of NO in lipopolysaccharide (LPS) -induced RAW264.7 cells and HaCaT cells, and reduce the secretion and expression of inflammation-related factors Interleukin-6 (IL-6), Tumor necrosis factor-α (TNF-α) and Interleukin-17 A (IL-17 A), thereby reducing cell inflammatory damage. In the imiquimod (IMQ) -induced mouse inflammatory model, the therapeutic effect of GFRS on the pathogenesis of psoriasis-like dermatitis was studied. In vivo experiments showed that the skin erythema, scales, thickness and inflammatory infiltration of GFRS-treated mice were reduced, and the psoriasis area severity index score was significantly lower than that of IMQ group. GFRS restored IMQ-induced spleen size and reduced the secretion and expression of TNF-α, IL-6, Interferon-γ (IFN-γ) and IL-17 A in serum. In summary, our results demonstrate that GFRS alleviates IMQ-induced dermatitis symptoms, effectively reduces the secretion of inflammatory factors, and inhibits IL-17 A expression.