Crohn's disease, an incurable inflammatory disorder of the intestine -- most commonly found in the lower part of the small intestine called the ileum -- affects 1-in-1,000 people in Europe and North America. Thus far, gut bacteria have long been suspected in playing a pivotal role in the development of Crohn's disease, but the specific bacterial characteristics that drive the inflammatory response have remained elusive.
Researchers at Cornell examined possible causes for the disease in patients with Crohn's restricted to the ileum and the colon versus healthy individuals.
"Given that only about 20 percent of fecal bacteria can be cultured, our group adopted a broad culture-independent approach to target specific subgroups of bacteria for quantitative in situ analysis and culture based characterization," said Kenneth Simpson, professor of small animal medicine at the College of Veterinary Medicine. "Our findings raise the possibility that a novel group of E. coli contains opportunistic pathogens that may be causally related to chronic intestinal inflammation in susceptible individuals. They suggest that an integrated approach that considers an individual's mucosa-associated flora in addition to disease phenotype and genotype may improve outcome."
The study found an increased level of E. coli bacteria in more inflamed areas of the small intestines instead of MAP, a bacterium related to tubercle bacillus that has been more commonly associated with Crohn's.
To access the full research study titled "Culture independent analysis of ileal mucosa reveals a selective increase in invasive Escherichia coli of novel phylogeny relative to depletion of Clostridiales in Crohn's disease involving the ileum" and related microscopic images, access the current issue of the ISME Journal at
The study was supported by an Ithaca Cornell-Weill Cornell Seed Grant.
Source: Sabina Lee
Cornell University News Service