Antibiotic-resistant infections can be eliminated by a lifesaving antibiotic called Vancomycin, finds a research team from The Scripps Research Institute (TSRI). The research team led by Dale Boger, co-chair of TSRI’s Department of Chemistry, has recently discovered a way to modify vancomycin that could make a powerful version of the antibiotic more potent.
‘New way to modify vancomycin drug that could make a more powerful version of the drug could help treat antibiotic-resistant infections.’
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"Doctors could use this modified form of vancomycin without fear of resistance emerging," said Boger, whose team announced the finding today in the journal Proceedings of the National Academy of Sciences.The original form of vancomycin is an ideal starting place for developing better antibiotics. The antibiotic has been prescribed by doctors for 60 years, and bacteria are only now developing resistance to it. This suggests bacteria already have a hard time overcoming vancomycin's original "mechanism of action," which works by disrupting how bacteria form cell walls.
Boger called vancomycin "magical" for its proven strength against infections, and previous studies by Boger and his colleagues at TSRI had shown that it is possible to add two modifications to vancomycin to make it even more potent. "With these modifications, you need less of the drug to have the same effect," Boger said.
The new study shows that scientists can make a third modification--which interferes with a bacterium's cell wall in a new way--with promising results. Combined with the previous modifications, this alteration gives vancomycin a 1,000-fold increase in activity, meaning doctors would need to use less of the antibiotic to fight infection.
The discovery makes this version of vancomycin the first antibiotic to have three independent mechanisms of action. "This increases the durability of this antibiotic," said Boger. "Organisms just can't simultaneously work to find a way around three independent mechanisms of action. Even if they found a solution to one of those, the organisms would still be killed by the other two."
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The next step in this research is to design a way to synthesize the modified vancomycin using fewer steps in the lab, as the current method takes 30 steps. But Boger calls this the "easy part" of the project, compared with the challenge of designing the molecule in the first place.
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Source-Eurekalert