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Building An Antibiotic To Kill Bad Microbes While Sparing Good Ones

What if a drug could knock out <em>Staphylococcus aureus</em> bacteria like these without disturbing the bacteria that help make you healthy?
NIAID/Flickr
What if a drug could knock out Staphylococcus aureus bacteria like these without disturbing the bacteria that help make you healthy?

Antibiotics can save lives, but sometimes they can work too well.

Most antibiotics can't tell the difference between good and bad bacteria. That means the medicines kill helpful bacteria in your gut while they're obliterating the bacteria making you sick.

The helpful bacteria make up what's known as your microbiome. Damaging the microbiome can cause a number of health problems, including making people more vulnerable to infections from other bacteria such as Clostridium difficile, which can cause debilitating diarrhea and be difficult to treat.

Researchers are working on an antibiotic that targets specific, harmful bacteria while sparing the microbiome.

A group from St. Jude Children's Research Hospital in Memphis, Tenn., is testing an experimental drug, Debio 1452, that targets the bacteria that cause staph infections. Staph bacteria include dangerous strains of methicillin-resistant Staphylococcus aureus, or MRSA, common causes of skin infections that can spread in hospitals. The study was published online by Antimicrobial Agents and Chemotherapy in early May.

Historically, antibiotics were designed to kill as many bacteria as possible. But not this one. "The idea was to develop a drug against staph, not against anything else," said the leader of the study, who works in the infectious disease department at St. Jude's. "This type of approach to antibiotic discovery and development is not very common."

The antibiotic targets a protein that is common to all staph bacteria. This protein, called FabI, isn't found in many other types of bacteria. When FabI is disrupted by Debio 1452, the structure of the bacterial cell is compromised.

The scientists working on the drug compared the microbiomes of mice treated with Debio 1452 or commonly used antibiotics, such as clindamycin and amoxicillin. The microbiomes in mice that received Debio 1452 didn't change much. In contrast, the microbiomes of mice treated with the other antibiotics were significantly depleted.

Once the mice were taken off antibiotics, their microbiomes began to return to normal. After two days, the microbiomes of the mice that were treated with Debio 1452 bounced back almost completely. The populations of good bacteria in the mice on the other antibiotics took up to a week to recover. It took even longer, up to 20 days, for the diversity of bacteria to return to normal.

The quick return in the variety of gut bacteria after Debio 1452 is important, the scientists say, because their diversity could be as important or more than their total number.

"All in all I am very enthusiastic about this," says , the Sir William Osler professor of ophthalmology, and microbiology and immunobiology at Harvard Medical School. "Staph is a good target because it is so common and the treatment will usually be right."

But, Gilmore says, better ways are needed to diagnose patients to make sure a targeted antibiotic is the right choice.

The latest results, of course, apply only to mice. Although Debio 1452, being developed by Swiss drugmaker Debiopharm Group, has completed preliminary safety and effectiveness testing in human, the drug would have to successfully pass larger clinical trials in humans and be approved by the Food and Drug Administration before doctors could prescribe it. Even if all the studies go perfectly, a drug wouldn't reach the market for years.

Copyright 2020 NPR. To see more, visit https://www.npr.org.

Madeline Sofia is the host of Short Wave — NPR's daily science podcast. Short Wave will bring a little science into your life, all in about 10 minutes. Sometimes it'll be a good story, a smart conversation, or a fun explainer, but it'll always be interesting and easy to understand. It's a break from the relentless news cycle, but you'll still come away with a better understanding of the world around you.
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