Synthesis and biological evaluation of novel demethylzeylasteral derivatives as potential anticancer agents

Demethylzeylasteral (DEM), a class of terpenoids isolated from natural plants, frequently exhibits moderate or limited inhibitory effect on tumor growth across multiple cancer types. Thus, here we attempted to elevate the anti-tumor efficacy of DEM by altering active groups in its chemical structure. Initially, we synthesized a series of novel DEM derivatives 1-21 through performing a series of modifications of its phenolic hydroxyl groups at C-2/ 3, C-4 and C-29 positions. The anti-proliferative activities of these new compounds were subsequently assessed using three human cancer cell line models (A549, HCT116 and HeLa) and CCK-8 assay. Our data showed that compared to original DEM compound, derivative 7 exhibited remarkable inhibition effect on A549 (16.73 +/- 1.07 mu M), HCT116 (16.26 +/- 1.94 mu M) and HeLa (17.07 +/- 1.09 mu M), almost reaching to the same level of DOX. Moreover, the structure-activity relationships (SARs) of the synthesized DEM derivatives were discussed in detail. We found that treatment with derivative 7 only led to moderate cell cycle arrest at S-phase in a concentration-dependent manner. Meanwhile, derivative 7 treatment markedly induced apoptosis in tumor cells. Consistent with this observation, our subsequent docking analysis showed that derivative 7 is capable of acti-vating caspase-3 through interaction with the His 121 and Gly 122 residues of the enzyme. Overall, we have developed a new series of DEM derivatives with elevated anti-tumor efficacy relative to its parent form. The results suggested that derivative 7 has great potential to be employed as an anticancer agent candidate for natural product-based cancer chemotherapy.