4.7 Article

2-((3,5-Dinitrobenzyl)thio)quinazolinones: Potent Antimycobacterial Agents Activated by Deazaflavin (F420)-Dependent Nitroreductase (Ddn)

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JOURNAL OF MEDICINAL CHEMISTRY
卷 64, 期 1, 页码 440-457

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AMER CHEMICAL SOC
DOI: 10.1021/acs.jmedchem.0c01374

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资金

  1. China Scholarship Council [201607060021]
  2. Intramural Research Program of the NIAID, NIH
  3. Hercules Foundation [AUGE/17/22]

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The study found that the meta-nitro substituents play a crucial role in the antitubercular activity of the synthesized compounds, and the introduction of polar substituents can reduce binding to bovine serum albumin. The most potent compound showed moderate inhibitory activity against Mycobacterium tuberculosis, but also exhibited mutagenicity in mammalian cells.
Swapping the substituents in positions 2 and 4 of the previously synthesized but yet undisclosed 5-cyano-4-(methylthio)-2-arylpyrimidin-6-ones 4, ring closure, and further optimization led to the identification of the potent antitubercular 2-thio-substituted quinazolinone 26. Structure-activity relationship (SAR) studies indicated a crucial role for both meta-nitro substituents for antitubercular activity, while the introduction of polar substituents on the quinazolinone core allowed reduction of bovine serum albumin (BSA) binding (63c, 63d). While most of the tested quinazolinones exhibited no cytotoxicity against MRC-5, the most potent compound 26 was found to be mutagenic via the Ames test. This analogue exhibited moderate inhibitory potency against Mycobacterium tuberculosis thymidylate kinase, the target of the 3-cyanopyridones that lies at the basis of the current analogues, indicating that the whole-cell antimycobacterial activity of the present S-substituted thioquinazolinones is likely due to modulation of alternative or additional targets. Diminished antimycobacterial activity was observed against mutants affected in cofactor F-420 biosynthesis (fbiC), cofactor reduction (fgd), or deazaflavin-dependent nitroreductase activity rv3547 , indicating that reductive activation of the 3,5-dinitrobenzyl analogues is key to antimycobacterial activity.

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