AI Article Synopsis
- Pyrazinamide (PZA) is crucial in treating tuberculosis, specifically targeting non-growing bacteria by disrupting coenzyme A synthesis, but its effectiveness can be hampered by drug resistance.
- A new analog called morphazinamide (MZA) has been studied, showing that it also disrupts coenzyme A synthesis but doesn't need the same environmental stressors as PZA.
- MZA demonstrates a dual action mechanism, allowing it to kill bacteria faster and withstand resistance, offering valuable insights for developing better tuberculosis treatments.
Article Abstract
Pyrazinamide (PZA) is a cornerstone of first-line antitubercular drug therapy and is unique in its ability to kill nongrowing populations of through disruption of coenzyme A synthesis. Unlike other drugs, PZA action is conditional and requires potentiation by host-relevant environmental stressors, such as low pH and nutrient limitation. Despite its pivotal role in tuberculosis therapy, the mechanistic basis for PZA potentiation remains unknown and the durability of this crucial drug is challenged by the emergent spread of drug resistance. To advance our understanding of PZA action and facilitate discovery efforts, we characterized the activity of a more potent PZA analog, morphazinamide (MZA). Here, we demonstrate that like PZA, MZA acts in part through impairment of coenzyme A synthesis. Unexpectedly, we find that, in contrast to PZA, MZA does not require potentiation due to aldehyde-mediated disruption of thiol metabolism and maintains bactericidal activity against PZA-resistant strains. Our findings reveal a novel dual action mechanism of MZA that synergistically disrupts coenzyme A synthesis resulting in a faster rate of killing and a higher barrier to resistance relative to PZA. Together, these observations resolve the mechanistic basis for potentiation of a key first-line antitubercular drug and provide new insights for discovery of improved therapeutic approaches for tuberculosis.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11482805 | PMC |
| http://dx.doi.org/10.1101/2024.10.08.617272 | DOI Listing |
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