AI Article Synopsis
- Tuberculosis is the top infectious killer worldwide, pushing the need for new drugs due to rising drug-resistant strains.
- Researchers screened a natural antibiotic library and found polymyxin B and nanaomycin A as effective inhibitors of key enzymes in Mycobacterium smegmatis, with specific inhibitory concentrations documented.
- Polymyxin B was shown to act primarily at the quinone-binding site, while both antibiotics demonstrated mechanisms involving membrane destruction and reactive oxygen species production, highlighting new potential drug targets for treating tuberculosis.
Article Abstract
Tuberculosis is the leading cause of death due to a single infectious agent in the world and the emergence of multidrug-resistant strains prompted us to develop new drugs with novel targets and mechanism. Here, we screened a natural antibiotics library with Mycobacterium smegmatis membrane-bound dehydrogenases and identified polymyxin B (cationic decapeptide) and nanaomycin A (naphtoquinone derivative) as inhibitors of alternative NADH dehydrogenase [50% inhibitory concentration (IC(50)) values of 1.6 and 31 microg/ml, respectively] and malate: quinone oxidoreductase (IC(50) values of 4.2 and 49 microg/ml, respectively). Kinetic analysis on inhibition by polymyxin B showed that the primary site of action was the quinone-binding site. Because of the similarity in K(m) value for ubiquinone-1 and inhibitor sensitivity, we examined amino acid sequences of actinobacterial enzymes and found possible binding sites for L-malate and quinones. Proposed mechanisms of polymyxin B and nanaomycin A for the bacteriocidal activity were the destruction of bacterial membranes and production of reactive oxygen species, respectively, while this study revealed their inhibitory activity on bacterial membrane-bound dehydrogenases. Screening of the library with bacterial respiratory enzymes resulted in unprecedented findings, so we are hoping that continuing efforts could identify lead compounds for new drugs targeting to mycobacterial respiratory enzymes.
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| http://dx.doi.org/10.1093/jb/mvp096 | DOI Listing |
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