Discovery of novel indole-based aroylhydrazones as anticonvulsants: Pharmacophore-based design.

A number of novel melatonin derivatives, containing aroylhydrazone moieties, were synthesized and explored in vivo for anticonvulsant activity, neurotoxicity in ICR mice as well as in-vitro for cytoxicity and oxidative stress in rats. The structures and configurations were confirmed by NMR, FTIR, HRMS and crystal X-ray diffraction method. For selection of potent structures for synthesis a pharmacophore model was used. Two compounds 3e, with a 2-furyl moiety fragment and 3f with 2-thienyl fragment, showed a potency in maximal electroshock (MES) test (ED50 = 50.98 mg kg-1, PI > 5.88 and ED50 = 108.7 mg kg-1; PI > 2.76), respectively, higher than melatonin (ED50 = 160.3 mg kg-1, PI > 1.87). The compounds 3c, 3e, 3f and 3i suppressed psychomotor seizures in the 6 Hz test and 3c was the most potent with higher ED50 = 13.98 mg kg-1 and PI of > 21.46 compared to that of melatonin (ED50 = 49.76 mg kg-1 and PI of > 6.03) in mice. None of the compounds displayed neurotoxicity in the rota-rod test. The novel melatonin derivatives exerted weak cytotoxic effects while 3f showed the lowest hepatoxic effects comparable to that of the positive control melatonin in rats. The high affinities to the elucidated pharmacophore model of the novel melatonin compounds derived from the inclusion of aroylhydrazone moiety in the indole scaffold yielded suitable candidates with anticonvulsant activity in the MES and 6 Hz test of psychomotor seizures.