Ginseng mediates its anti-cancer activity by inhibiting the expression of DNMTs and reactivating methylation-silenced genes in colorectal cancer.

Developing safe and effective therapeutic modalities remains a critical challenge for improving the prognosis of patients with colorectal cancer (CRC). In this regard, targeting epigenetic regulation in cancers has recently emerged as a promising therapeutic approach. Since several natural compounds have recently been shown to be important epigenetic modulators, we hypothesized that Ginseng might exert its anti-cancer activity by regulating DNA methylation alterations in CRC. In this study, a series of cell culture studies were conducted, followed by their interrogation in patient-derived 3D organoid models to evaluate Ginseng's anti-cancer activity in CRC. Genome-wide methylation alterations were interrogated by undertaking MethylationEpic BeadChip microarrays. First, 50% inhibitory concentrations (IC50) were determined by cell viability assays, and subsequent Ginseng treatment demonstrated a significant anti-cancer effect on clonogenicity and cellular migration in CRC cells. Treatment with Ginseng potentiated cellular apoptosis through regulation of apoptosis-related genes in CRC cells. Furthermore, Ginseng treatment downregulated the expression of DNA methyltransferases (DNMTs) and decreased the global DNA methylation levels in CRC cells. The genome-wide methylation profiling identified Ginseng-induced hypomethylation of transcriptionally silenced tumor suppressor genes. Finally, cell culture-based findings were successfully validated in patient-derived 3D organoids. In conclusion, we demonstrate that Ginseng exerts its anti-tumorigenic potential by regulating cellular apoptosis via the downregulation of DNMTs and reversing the methylation status of transcriptionally silenced genes in CRC.