The journal implements double-blind peer review practiced by specially invited international editorial board members. Objective: To synthesize chalcone derivatives and investigate their antimalarial activity toward chloroquine-sensitive Plasmodium falciparum 3D7 (Pf3D7) strain; to develop quantitative structureactivity relationships (QSAR) model to estimate IC 50 values for biological activity of antimalarial and compared to experimental measurement; and to determine the binding interactions of the most active compounds with targeting P. falciparum dihydrofolate reductase-thymidylate synthase using molecular docking simulation. Methods: Seven chalcone derivatives have been synthesized from substituted acetophenone and substituted benzaldehyde in ethanol with the presence of bases catalysis at reflux condition. The QSAR analysis was conducted by using Gaussian 09 software to predict IC 50 value for antimalarial activity. The in vitro test was evaluated against the chloroquine-sensitive Pf3D7 strain. Finally, the docking studies were performed with the CDOCKER protocol under the receptor-ligand interaction section in Discovery Studio® 3.1 (Accelrys, Inc., San Diego, USA). Results: Among the synthesized chalcone, a prenylated chalcone 5c and an allylated chalcones 10a showed the best IC 50 values of 1.08 and 1.73 μg/mL respectively against Pf3D7 strain (1.37 and 2.33 μg/mL based on QSAR analysis). Comparison between the prediction of IC 50 value generated from the QSAR and the outcome from an in vitro assay showed a similar result as seen from the r 2 value (r 2 = 0.99). The most active compound 5c was employed in the docking simulation to determine the potential binding interactions with active sites of P. falciparum dihydrofolate reductase-thymidylate synthase (protein data bank ID: 1J3I). The docking simulation study showed 5c bind well with Ala16, Ser108, Ile164, Trp48, and Phe58 which are the crucial interactions that could possibly interrupt the sequential catalysis reactions in the thymidylate cycle and subsequently prevent deoxythymidine monophosphate production and DNA synthesis. The formed binding interaction (H-bond) toward residues of Ala16, Ser108, and Ile164 also indicate the activity of 5c against chloroquine-resistance P. falciparum strain. Conclusions: We have successfully determined the effects of some chalcone derivatives on antimalarial activity against the chloroquine-sensitive Pf3D7 strain. Compound 5c and 10a were described a good antiplasmodial compounds. Interestingly, these in vitro results relevance with IC 50 predicted QSAR studies. Moreover, molecular docking simulation provided insight into the binding modes of 5c into the anti-folate resistance from malarial P. falciparum.
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