Abstract
The specific aims of this study is to synthesize and to study the possible mechanism of N’-benzoylsalicylhydrazide derivatives as an antituberculosis agent through InhA (Enoyl acyl carrier protein reductase) inhibition using in silico method. Five analogues of N’-benzoylsalicylhydrazide were synthesized using microwave irradiation from methyl salicylate as starting material, which yielded 80-90% product on average. This indicates a considerable improvement in terms of effectivity and efficiency, compared to the more conventional method using reflux condition. Character-ization of the compounds were subsequently carried out by UV, FTIR, 1 H-NMR, 13 C-NMR spectroscopy, which confirmed that the compounds had been successfully synthesized. Ultimately, molecular docking was performed using Molegro Virtual Docker (MVD) on the active site of InhA enzyme to predict the activity of the compounds. The results showed that all compounds performed comparatively well against N-(4-Methylbenzoyl)-4-benzylpiperidine as the native ligand and also yielded lower docking score than isoniazide (INH). From this study it can be concluded that N’-benzoylsalicylhydrazide derivatives could be synthesized using microwave irradiation with good product yield and all of the synthesized analogues are suggested to possess antituberculosis activity via InhA enzyme inhibition. In vitro activity will have to be determined in the future to validate whether N’-benzoylsalicylhydrazide derivatives perform well as a potential antituberculosis agent.
Highlights
Lower respiratory tract infections were one of the top 10 deadliest diseases in 20102015
Tuberculosis infection accounts for half of the total mortality from lower respiratory tract infections
As for Isoniazid (INH), its mechanism as antituberculosis against Mycobacterium tuberculosis is via inhibition of mycolic acids synthesis, which plays an important role as major components of mycobacterial cell walls
Summary
Lower respiratory tract infections were one of the top 10 deadliest diseases in 20102015. According to WHO data, lower respiratory tract infections account for around 5.7% of deaths in the world or around 3.2 million people died in 2015 (Pietrangelo and Holland, 2018). Tuberculosis infection accounts for half of the total mortality from lower respiratory tract infections. This disease still ranks 9th out of the list of the top 10 deadliest diseases in the world. Resistance against rifampin can be caused by one of the several possible point mutations in rpoB, the gene for the β-subunit of RNA polymerase. As for Isoniazid (INH), its mechanism as antituberculosis against Mycobacterium tuberculosis is via inhibition of mycolic acids synthesis, which plays an important role as major components of mycobacterial cell walls. We applied microwave irradiation on the first stage of the reaction to obtain the optimal of time and product yield
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