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Gut Reaction

Salmonella food poisoning causes chronic intestinal inflammation (bright green) via disrupting the body’s ability to detoxify resident gut bacteria.

 

Gut Reaction

Scientists discover that repeated food poisoning can trigger chronic disease

By Julie Cohen

Food poisoning may be the unwanted gift that keeps on giving — at least according to a new study. A startling discovery by UC Santa Barbara scientists, published in the journal Science, reveals how a past history of bacterial infections adds up with age to cause severe inflammatory disease.

Small bacterial infections, which may go unnoticed and which clear the body without treatment — such as occurs in mild food poisoning — nevertheless can start a chain of events that leads to chronic inflammation and life-threatening colitis. The new findings also may identify the long-mysterious origins of inflammatory bowel disease (IBD).

From left: Jamey Marth, Won Ho Yang, Douglas Heithoff and Michael Mahan.

 

The project was led by Jamey Marth, director of UCSB’s Center for Nanomedicine and also a professor at the Sanford Burnham Prebys (SBP) Medical Discovery Institute in La Jolla. Additional collaborators were lead author Won Ho Yang, Michael Mahan, Douglas Heithoff and Peter Aziz, who hold joint appointments at UCSB’s Center for Nanomedicine and the SBP Discovery Institute, and Dr. Victor Nizet of UC San Diego and Markus Sperandio of Ludwig-Maximilian University of Munich.

“We have discovered an environmental and pathogenic origin of chronic intestinal inflammation in the course of modeling human food poisoning as it occurs repeatedly over the adult lifespan,” co-author Marth explained. “Remarkably, salmonellae have figured out a way to disrupt a previously unknown protective mechanism in the gut that normally prevents intestinal inflammation.”

A breakthrough eight years in the making, the multi-institution collaboration was launched to investigate the origin of chronic inflammatory diseases spanning colitis and IBD. The group’s radically different hypothesis took shape from a few possible clues, starting with increasing evidence that the genetic makeup of an individual plays a limited role in common inflammatory diseases, including colitis and IBD. Twins show relatively small concordance for both developing IBD, for example. Such findings implicate unknown environmental factors in disease origins.

Noting that studies from other laboratories had reported seasonal bacterial infections in humans were correlated with increased diagnoses of IBD, the investigators hypothesized that recurrent low-grade bacterial infections may trigger the onset of chronic inflammation.

“Trying to determine the origin of a disease is important as it often indicates more rational and effective preventions and treatments,” Marth said.

The researchers developed a model of mild human food poisoning using healthy mice that were administered a very low dose of a common bacterial strain, Salmonella typhimurium, which is widespread throughout the environment and is a leading cause of human foodborne illness and disease. Most often, the result is temporary intestinal discomfort and dysfunction. The majority of these infections are likely unreported, which suggests the numbers of infections among individuals over a lifespan is greatly underestimated.

“We investigated whether low-titer and nonlethal salmonella infections of mice — designed to model repeated episodes of human food poisoning — might lead to cumulative and chronic intestinal inflammation,” explained Mahan, a professor in UCSB’s Department of Molecular, Cellular, and Developmental Biology. “Such a discovery might explain the origins and mechanisms responsible for human colitis and IBD.”

The team experimented with a dose of salmonella that was low enough to ensure no significant symptoms or death but that allowed the pathogen to be successfully eliminated by the host. By the fourth infection — months apart from the first — the inflammation had steadily increased and colitis was now present in all subjects. Surprisingly, the disease did not improve despite the cessation of repeated infections, indicating that the damage was already done.

“This type of study had never been done before and the results were shocking,” Yang said. “We observed the onset of a progressive and irreversible inflammatory disease caused by previous infections. That was quite surprising because the pathogen had been easily and rapidly eliminated by the host.”

The investigation linked the disease mechanism to an acquired deficiency of intestinal alkaline phosphatase (IAP), an enzyme produced in the duodenum of the small intestine. Salmonella infection elevated neuraminidase activity in the small intestine, which in turn accelerated the molecular aging and turnover of IAP, resulting in IAP deficiency in the colon. IAP is important because its job is to remove phosphates from molecules such as pro-inflammatory lipopolysaccharide (LPS) — produced by various resident bacteria in the colon — thereby transforming LPS from a toxic to a nontoxic state. In fact, published studies by others have recently reported IAP deficiencies and high neuraminidase levels in IBD patients.

“Our findings are of potential great concern to the human population,” Marth said. “Food contamination at these low bacterial levels is likely to be more common than we recognize, while symptoms could be nonexistent or mild and disappear in a day or two without treatment. Repeated over time, we find that such minor infections are sufficient to trigger disease months and perhaps years later, depending upon the number and timing of infections an individual has experienced over his or her lifetime.”

Added Marth: “There is an unexpected additive effect of previous infections in the likelihood of developing colitis. This environmental factor may be responsible for triggering disease among some segments of the human population.”

The good news is that ways to boost IAP levels or inhibit neuraminidase already exist. IAP augmentation is as simple as adding the enzyme to drinking water. Neuraminidase inhibition can be achieved using a marketed antiviral neuraminidase inhibitor, a drug used to prevent influenza viral infections.

“This opens a new door where these therapies could be easily applied and tested,” Mahan noted. “We found that both treatment approaches were similarly effective at preventing the onset of disease.”

This research was funded by grants from the National Institutes of Health’s National Heart, Lung, and Blood Institute. Additional support was provided by the Wille Family Foundation and by the German Research Foundation.

source: The University of California – Santa Barbara

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