Anticancer and Biological Effects of Some Natural Compounds and Theoretical Investigation of them Against RdRP of SARS-COV-2: In Silico and In Vitro Studies.

In this study, Skullcapflavone I and Skullcapflavone II molecules showed good inhibitory activities against α-glucosidase and sorbitol dehydrogenase enzymes with IC50 values of 102.66 ± 8.43 and 95.04 ± 11.52 nM for α-glucosidase and 38.42 ± 3.82 and 28.81 ± 3.26 µM for sorbitol dehydrogenase. The chemical activities of Skullcapflavone I and Skullcapflavone II against α-glucosidase and sorbitol dehydrogenase were assessed by conducting the molecular docking study. The anticancer activities of the compounds were examined against SW-626, SK-OV-3, OVCAR3, and Caov-3 cell lines. The chemical activities of Skullcapflavone I and Skullcapflavone II against some of the expressed surface receptor proteins (estrogen receptor, EGFR, androgen receptor, and GnRH receptor) in the mentioned cell lines were investigated using in silico calculations. Moreover, the activity of the compounds against RNA polymerase of SARS-COVE-2 was also assessed using the molecular modeling study. These compounds created strong contacts with the enzymes and receptors. The considerable binding affinity of the compounds to the enzymes and proteins showed their ability as inhibitors. Furthermore, even at modest dosages, these substances markedly reduced the viability of ovarian cancer cells. Additionally, the viability of ovarian cancer cells was significantly decreased by a 300 µM dosage of all compounds. Antiovarian cancer results of Skullcapflavone I on SK-OV-3, SW-626, OVCAR3, and Caov-3 were 63.14, 1.55, 19.42, and 52.04 µM, respectively. Also, cytotoxicity results of Skullcapflavone II on SK-OV-3, SW-626, OVCAR3, and Caov-3 were 5.18, 21.44, 33.87, and 72.66 µM, respectively.