Triclosan In Soap And Toothpaste Actually Makes Germs Stronger

Triclosan In Soap And Toothpaste Actually Makes Germs Stronger

A chemical in hand soap and toothpaste meant to kill bacteria is actually making them stronger and more capable of surviving antibiotic treatment, according to a new study in mice.

The study, which appears in Antimicrobial Agents & Chemotherapy, suggests that triclosan exposure may inadvertently drive bacteria into a state in which they are able to tolerate normally lethal concentrations of antibiotics—including those antibiotics doctors commonly use to treat urinary tract infections (UTIs).

Triclosan is the active ingredient responsible for the “antibacterial” property marketed on many consumer products. Companies add triclosan to products including toothpaste, mouthwash, cosmetics, and even clothing, baby toys, and credit cards with the intention of reducing or preventing bacterial growth.

About 75% of US adults have detectable levels of triclosan in their urine.

“In order to effectively kill bacterial cells, triclosan is added to products at high concentrations,” says Petra Levin, a professor of biology at Washington University in St. Louis.

In 2017, the US Food and Drug Administration cited both safety concerns and lack of efficacy when it recommended against adding triclosan to consumer soaps, but these guidelines have not discouraged companies from adding it to other products.

What’s more, Levin says, “Triclosan is very stable. It lingers in the body and in the environment for a long time.”

The study uncovers the extent to which triclosan exposure limits the body’s ability to respond to antibiotic treatment for urinary tract infection. It also sheds new light on the cellular mechanism that allows triclosan to interfere with antibiotic treatment.

Death-defying bacteria

Some antibiotics kill bacterial cells, while others keep them from growing.

Levin and her colleagues were particularly interested in bactericidal antibiotics—those that can kill bacterial cells and doctors typically prescribe to treat bacterial infections. They wanted to know whether triclosan could protect bacteria from death in the presence of killing antibiotics.

Triclosan exposure allowed the bacteria to escape death by antibiotics.

Corey Westfall, a postdoctoral scholar in the Levin lab, treated bacterial cells with bactericidal antibiotics and tracked their ability to survive over time. In one group, the researchers exposed bacteria to triclosan prior to giving them the bactericidal antibiotic. In the other group, they did not.

“Triclosan increased the number of surviving bacterial cells substantially,” Levin says. “Normally, one in a million cells survive antibiotics, and a functioning immune system can control them. But triclosan was shifting the number of cells. Instead of only one in a million bacteria surviving, one in 10 organisms survived after 20 hours. Now, the immune system is overwhelmed.”

Triclosan exposure allowed the bacteria to escape death by antibiotics. And the protective property wasn’t limited to any single family of antibiotics. In fact, multiple antibiotics that are considered unique in how they kill cells were less effective at killing bacteria researchers exposed to triclosan.

“Triclosan increased tolerance to a wide breadth of antibiotics,” Westfall says. “Ciprofloxacin (also known as Cipro) was the most interesting one to us because it is a fluoroquinolone that interferes with DNA replication and is the most common antibiotic used to treat UTIs.”

Hampering antibiotics

UTIs occur when bacteria, primarily Escherichia coli (E. coli), enter and infect the urinary tract. Antibiotics such as Cipro are commonly used to kill the bacteria and treat the infection.

UTIs are common; so is exposure to triclosan. A shocking percentage—about 75 percent—of adults in the United States have detectable levels of triclosan in their urine. About 10 percent of adults have levels high enough to prevent E. coli from growing. Could triclosan’s presence in the body interfere with treating UTIs?

The researchers figured out that mice that drink triclosan-spiked water have urine triclosan levels similar to those reported in humans.

“This result meant we could actually test the impact that human urine levels of triclosan have during antibiotic treatment of UTIs in mice,” Levin says.

All of the mice with the infection received Cipro to treat the UTI. Only some of the mice drank triclosan-spiked water. After antibiotic treatment, mice with triclosan exposure had a large number of bacteria in their urine and stuck to the bladder; mice without exposure had significantly lower bacterial counts.

“The magnitude of the difference in bacterial load between the mice that drank triclosan-spiked water and those that didn’t is striking,” Levin says.

“If the difference in the number of bacteria between the groups was less than tenfold, it would be difficult to make a strong case that the triclosan was the culprit,” Levin adds. “We found 100 times more bacteria in the urine of triclosan-treated mice—that is a lot.”

This striking result has an equally striking message—antibiotics are less effective at treating UTIs when triclosan is around, at least in mice.

Secret weapon

Triclosan is interfering with antibiotic treatment, but how?

The researchers found that triclosan works with a cell growth inhibitor, a small molecule nicknamed ppGpp, to render cells less sensitive to antibiotics.

During times of stress, ppGpp responds by shutting down the biosynthetic pathways that make the building blocks—DNA, RNA, protein, and fat—that ultimately become new cells. This response helps divert resources away from growth and towards survival.

“There is a rule in medicine that you don’t give drugs that slow cell growth before drugs that kill cells,” Levin says.

Bactericidal antibiotics kill by targeting specific biosynthetic pathways. Ampicillin targets the enzymes that make the bacterial cell wall, for example, while Cipro targets DNA synthesis. When these pathways shut down, bactericidal antibiotics have trouble doing their job.

If triclosan triggers ppGpp, the molecule curtails biosynthesis and bactericidal antibiotics become ineffective at killing cells. Biosynthesis continues in bacteria lacking ppGpp, however, and these cells would be expected to die.

Levin and colleagues tested their hypothesis by engineering E. coli mutants unable to make ppGpp and compared them to E. coli able to make ppGpp. The absence of ppGpp in the mutant E. coli removed triclosan’s ability to protect the cells from bactericidal antibiotics.

While clinical studies are necessary to definitively prove that triclosan is interfering with antibiotic treatments in humans, Levin says, “My hope is that this study will serve as a warning that will help us rethink the importance of antimicrobials in consumer products.”

Source: Washington University in St. Louis

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