Scientists have developed a simple way of altering antibiotics that could make them much more powerful against infections caused by drug-resistant microbes.
A simple chemical modification could boost antibiotics’ effectiveness in the fight against microbial resistance.
The method made the antibiotic vancomycin much more powerful against two strains of bacteria that had become drug-resistant.
The researchers suggest that the simple chemistry involved in modifying the drug can be applied to other antibiotics and even to anticancer drugs.
A paper on the “bioconjugation technique” now features in the journal Nature Chemistry.
“Typically,” says senior study author Bradley L. Pentelute, who is an associate professor of chemistry at Massachusetts Institute of Technology (MIT) in Cambridge, “a lot of steps would be needed to get vancomycin in a form that would allow you to attach it to something else, but we don’t have to do anything to the drug.”
He goes on to explain that they mixed the drug with an antimicrobial peptide and got a “conjugation reaction.”
He and others at MIT worked on the study with colleagues from Yale University in New Haven, CT, and the biotech company Visterra, which is also based in Cambridge, MA.
Antibiotic resistance develops because every time someone uses an antibiotic drug, a small population of naturally resistant microbes survives. Resistance spreads not only because the resistant germs predominate, but also because they share their resistance with other microbes.
A global review published in 2016 suggested that around 10 million lives per year could be at risk due to increasing antimicrobial resistance.
Without effective antibiotics, many medical procedures — including cesarean delivery, bowel surgery, chemotherapy, and joint replacement — could pose such a high risk of infection that they “become too dangerous” to carry out.
Every year in the United States, antibiotic-resistant germs infect around 2 million people and are responsible for around 23,000 deaths, according to the Centers for Disease Control and Prevention (CDC).
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Infections due to germs that have become resistant to antibiotics are very difficult, and in some cases impossible, to treat. Alternative treatments tend to cost more and have worse side effects.
People with these infections often have to stay in the hospital longer and need more visits from the doctor.
‘Handle’ for attaching small proteins
The chemistry of the new method came from a previous discovery that the amino acid selenocysteine can act as a “handle” for attaching small-molecule drugs, such as vancomycin, to small proteins called antimicrobial peptides, which form part of the immune defenses of most organisms.
When they used the method to attach the peptides to vancomycin, the scientists found that they consistently attached to the same place on the antibiotic, producing molecules that were chemically identical.
Existing approaches to making such molecules would not be able to achieve such purity and would need more than a dozen steps to prepare vancomycin for attaching to peptides, note the researchers.
They tested several “conjugates” of vancomycin paired with various different antimicrobial peptides, including one called dermaseptin.
The tests showed that combining vancomycin with dermaseptin made the antibiotic five times more potent against the infectious bacterium Enterococcus faecalis.
- faecalisis a strain of Enterococcus, a genus of bacteria that has emerged as an important causeof infection in healthcare settings. Urinary tract infectionsare the most common types of infection that these bacteria cause, and the “rapid rise” of their resistance to vancomycin has been a particular worry to medical professionals.
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