The newly synthesized benzimidazole compounds were suggested to be inhibitors of Plasmodium falciparum plasmepsin II and human cathepsin D by virtual screening of an internal library of synthetic compounds. This was confirmed by enzyme inhibition studies that gave IC(50) values in the low micromolar range (2-48μM). Ligand docking studies with plasmepsin II predicted binding of benzimidazole compounds at the center of the extended substrate-binding cleft. According to the plausible mode of binding, the pyridine ring of benzimidazole compounds interacted with S1' subsite residues whereas the acetophenone moiety was in contact with S1-S3 subsites of plasmepsin II active center. The benzimidazole derivatives were evaluated for capacity to inhibit the growth of intraerythrocytic P. falciparum in culture. Four benzimidazole compounds inhibited parasite growth at ⩽3μM. The most active compound 10, 1-(4-phenylphenyl)-2[2-(pyridinyl-2-yl)-1,3-benzdiazol-1-yl]ethanone showed an IC(50) of 160nM. The substitution of a phenyl group and a chlorine atom at the para position of the acetophenone moiety were shown to be crucial for antiplasmodial activity.
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