Design, synthesis, and PASS-assisted evaluation of novel 2-substituted benzimidazole derivatives as potent anthelmintics

Abstract

A series of novel 2-substituted benzimidazole analogs has been designed and synthesized by connecting the benzimidazole nucleus with variedly substituted chalcone moieties through an amino linker. The designed analogs were predicted for their biological activity profile through the computer software PASS. The compounds were predicted to have potent anthelmintic activity. These were synthesized and the activity of each compound was evaluated experimentally at the concentrations of 0.1, 0.2, and 0.5 % in terms of mortality time and paralysis time for the helminthes. The experimentally observed activity was found to comply with the PASS predicted activity. All compounds showed dose-dependent activities. The compounds with an electron releasing group at the para position on phenyl ring in the chalcone moiety (8 and 9) were the most active in comparison to those bearing electron withdrawing groups. The corresponding ortho analogs (4 and 5) also revealed good paralytic and lethal activities. The higher activities of 8 and 9 may be attributed to the favorable electronic interactions of the electron releasing groups present at para position of the phenyl ring. Comparative analysis of the Lipinski’s parameters and the activities of the compounds revealed all the compounds to comply with the Lipinski’s rule of five. Further an optimum hydrophilicity and total polar surface area in the range of 65–80 of the molecule are required for the potent activity, but Molar refractance is not found to have any significant role in determining the anthelmintic activity.