Triclosan, a Common Antimicrobial Ingredient in Toothpaste, Soaps, Linked to Colonic Inflammation, Altered Gut Microbiota

Mouse study led by UMass Amherst suggests new research, more scrutiny is warranted
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From left: Zhenhua Liu, Lisa Minter, graduate students Min Gu, Kathy Sanidad and Weicang Wang, postdoctoral fellow Haixia Yang, Hang Xiao and senior author Guodong Zhang.
From left: Zhenhua Liu, Lisa Minter, graduate students Min Gu, Kathy Sanidad and Weicang Wang, postdoctoral fellow Haixia Yang, Hang Xiao and senior author Guodong Zhang.

AMHERST, Mass. – A large research team led by senior author Guodong Zhang at the University of Massachusetts Amherst reports that the antimicrobial ingredient triclosan, found in hand soaps and toothpastes among other products, could have adverse effects on colonic inflammation and colon cancer by altering gut microbiota, the microbes found in our intestines.

The study reported in Science Translational Medicine suggests that short-time treatment with low-dose triclosan caused low-grade colonic inflammation, and exaggerated disease development of colitis and colitis-associated colon cancer in mice, Zhang says. “These results, for the first time, suggest that triclosan could have adverse effects on gut health,” he notes.

Co-first authors Haixia Yang and Weicang Wang, both from the Zhang laboratory in the food science department at UMass Amherst, point out that triclosan is among the most widely used antimicrobial ingredients and is found in more than 2,000 consumer products. They note that a National Health and Nutrition Examination Survey showed that triclosan was detected in about 75 percent of the urine samples of individuals tested in the United States and it is among the top ten pollutants found in U.S. rivers.

“Because this compound is so widely used, our study suggests that there is an urgent need to further evaluate the impact of triclosan exposure on gut health in preparation for the potential establishment of further regulatory policies,” says Yang, a postdoctoral fellow in Zhang laboratory.

In this study, the 21-member team that included 12 UMass Amherst researchers, investigated the effects of triclosan on colonic inflammation and colon cancer using several mouse models. In all mouse models tested, triclosan promoted colonic inflammation and colon tumorigenesis, Zhang reports.

His co-author, food scientist Hang Xiao, adds, “In particular, we used a genetically engineered mouse model which develops spontaneous inflammatory bowel disease or IBD. Also, treatment with triclosan significantly increased disease development of IBD in the mice, suggesting that IBD patients may need to reduce exposure to this compound.”

In a series of experiments designed to explore mechanisms, the research team found that gut microbiota is critical for the observed adverse effects of triclosan. Feeding triclosan to mice reduced the diversity and changed the composition of the gut microbiome, a result similar to what was observed in a human study conducted by others, Zhang says.

Also, triclosan had no effect in a germ-free mouse model where there is no gut microbiome present, nor in a genetically engineered mouse model where there is no Toll-like receptor 4 (TLR4) – an important mediator for host-microbiota communications. “This is strong evidence that gut microbiota is required for the biological effects of triclosan” Zhang points out.

In an editorial note accompanying the article, the journal says, “Triclosan exposure is practically unavoidable in the United States, but little is known how ingestion may affect our health.” This study observed that triclosan altered mouse gut microbiota, increased inflammation, increased the severity of colitis symptoms and spurred colitis-associated colon cancer cell growth. Though limited to mouse models, “this work suggests that the effects of triclosan on human health should be examined more closely,” editors noted.

Besides food science researchers Yang, Wang and Zhang, other UMass Amherst researchers were from the departments of veterinary and animal sciences, nutrition and mathematics and statistics. The team also included researchers at Xi’an Jiaotong University, China; the University of Wisconsin-Madison; the University of California, Davis; Boston Children’s Hospital and Beth Israel Deaconess Medical Center, Harvard Medical School; Northwest University, Xi’an, China, and Northwestern University, Chicago.

This work was supported by a new faculty start-up grant from UMass Amherst, the USDA National Institute of Food and Agriculture, the NIH’s National Cancer Institute and a National Natural Science Foundation of China grant.