Abstract
With the tremendous increase in viral infection spread and drug resistance, it is imperative to explore new efficient antiviral agents. Two series of novel compounds, triazole-annulated dipyridodiazepines 9(a–e) and methyl-substituted triazole-annulated dipyridodiazepines 10(a–e), were successfully synthesised and characterised by IR, NMR spectroscopy and mass spectrometry. The in vitro reverse transcriptase inhibitory ability of synthesized derivatives was determined using an HIV-1 reverse transcriptase assay kit. Results revealed that 9a and 10a were most potent with an IC50 of 66 and 71 nM compared with reference drug nevirapine 88nM. A density functional theory (DFT) study of the synthesized compound showed that both triazole series possess noticeably distorted butterfly-like structures, triazole and pyridine rings tilted relative to the diazepine ring and the phenyl ring is perpendicular to the diazepine ring. Significant HOMO/LUMO gap values for both series, 3.71–4.59 eV for the compounds 9(a–e) and 3.69–4.68 eV for compounds 10(a–e), suggest their quite noticeable stability. Further, these analogues were in silico analysed for molecular docking, drug-likeness, physicochemical and ADMET studies. The good binding scores (high interaction energies) obtained in the molecular docking studies are in good agreement with the molecular electrostatic potential (MEP) analysis results showing accumulations of negative and positive electrostatic potential on different parts of the molecules of the compounds studied. In conclusion, all these results suggest that synthesized analogues could be a potential candidate to inhibit HIV-1 reverse transcriptase and may be considered as lead molecules in the development of new anti-reverse transcriptase agents.
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