Health + Behavior

Metabolite therapy proves effective in treating C. difficile in mice

UCLA RESEARCH ALERT

|
Hon Wai Koon
Ryan Hatoum/UCLA Health

Professor Hon Wai Koon and colleagues found that an experimental drug called CSA13 helped boost the levels of four protective metabolites.

FINDINGS

A team of UCLA researchers found that a metabolite therapy was effective in mice for treating a serious infection of the colon known as Clostridium difficile infection, or C. difficile. 

Mice that were infected with C. difficile were treated with an experimental drug called CSA13, which increased levels of four protective metabolites — molecules that help fuel, maintain and mediate cells. Compared with mice that did not receive CSA13, the mice treated with the drug were significantly more likely to survive the infection, had lower rates of weight loss and — after the treatment was stopped — were less likely to have a relapse of the infection.  

BACKGROUND

C. difficile is a potentially life-threatening intestinal infection that causes severe diarrhea, abdominal pain and other symptoms. Nearly 500,000 people in the U.S. — primarily older adults in hospitals or long-term care facilities — become sick from C. difficile each year, according to the Centers for Disease Control and Prevention.

Treating C. difficile is complicated; the infection is often referred to as a “superbug” because today’s therapies are not very effective. Current antibiotics, for instance, do not completely eradicate C. difficile, and because of how they alter protective gut bacteria, antibiotics can increase the risk for the infection to recur.

Studies in humans have shown that fecal transplants have a 90 percent success rate for curing C. difficile infection, but the procedure is not approved by the Food and Drug Administration to treat C. difficile. It also is expensive and may have serious side effects.

METHOD

Mice infected with C. difficile received treatments of CSA13 either orally or through injections, or were given vancomycin, an antibiotic commonly used to treat the infection. The mice were monitored for 20 days, and they were compared to a control group that received neither treatment.  

A profile of the gut bacteria and metabolites from the mice who received CSA13 also indicated that increased levels of the four metabolites the researchers identified can inhibit the infection, reduce mortality rates and reduce weight loss in the mice infected with C. difficile.

IMPACT

The findings suggest metabolite therapy warrants further research as a possible treatment for C. difficile infection in humans.

It is important to note that CSA13 and the metabolites have not yet been approved by the U.S. Food and Drug Administration as safe and effective for humans; they may be used only in research studies.

AUTHORS

Hon Wai Koon, associate professor of digestive diseases at the David Geffen School of Medicine at UCLA, is the study’s senior author. Other authors are Dr. Jiani Wang, Dr. Sally Ghali, Dr. Chunlan Xu, Caroline Mussatto, Christina Ortiz, Elaine Lee, Diana Tran, Dr. Jonathan Jacobs, Dr. Venu Lagishetty, Kym Faull, Travis Moller and Maura Rosetti, all of UCLA; and Xinhua Chen of Harvard Medical School.

JOURNAL

The study was published online in the journal Gastroenterology.

FUNDING

The research was supported by grants from the National Institutes of Health and the National Center for Advancing Translational Sciences.

Media Contact