Article ID Journal Published Year Pages File Type
1398966 European Journal of Medicinal Chemistry 2014 13 Pages PDF
Abstract

•A library of 20 dialkyltetrahydrobenzopyrimidoisoquinolinetetraones was synthesized.•Hits were identified which show strong potency against M.tb.•From the in vitro acute toxicity, the selectivity was calculated.•The members of the library did not cause observable genotoxicity in vitro.•The activity against MDR M.tb and intracellular M.tb was investigated.

Given the re-emergence of tuberculosis in Europe and beyond, the search for novel bio-active compound classes against this disease is of utmost importance. As a result of a high intrinsic tolerance of the etiological agent, Mycobacterium tuberculosis, towards most antibiotics and xenobiotics, the search for such new compounds is far from trivial. Further exacerbated by the rapid generation and spread of drug resistant M. tuberculosis and fuelled by the HIV/AIDS pandemic, halting the tuberculosis epidemic is of paramount importance. As part of our program to design new 2-aza-anthraquinones with anti-mycobacterial activity, various dialkyltetrahydrobenzo[g]pyrimido[4,5-c]isoquinolinetetraones were designed and synthesised. The compounds were submitted to a biological evaluation in which the activity against M.tb H37Rvlux was observed, as well as the acute toxicity towards J774 A.1 macrophages. From these results, the selectivity index was calculated. Furthermore, the activity of the most promising compounds was further studied against a multi-drug resistant LAM-1 strain and against intracellular replicating M.tb. The study was further extended with a comet assay and a VITOTOX™ assay to investigate the possibility of observable genotoxic effects caused by these compounds.

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