News Release

Newly diagnosed Crohn's disease patients show imbalance in intestinal microbial population

Microbiome analysis reveals increase in pathogenic bacteria, drop in beneficial microbes

Peer-Reviewed Publication

Massachusetts General Hospital

A multi-institutional study led by investigators from Massachusetts General Hospital (MGH) and the Broad Institute has identified how the intestinal microbial population of newly diagnosed Crohn's disease patients differs from that of individuals free of inflammatory bowel disease (IBD). In their paper in the March 12 issue of Cell Host and Microbe, the researchers report that Crohn's patients showed increased levels of harmful bacteria and reduced levels of the beneficial bacteria usually found in a healthy gastrointestinal tract.

Several studies have suggested that the excessive immune response that characterizes Crohn's may be associated with an imbalance in the normal microbial population, but the exact relationship has not been clear. The current study analyzes data from the RISK Stratification Study, which was designed to investigate microbial, genetic and other factors in a group of children newly diagnosed with Crohn's disease or other inflammatory bowel diseases. At 28 participating centers in the U.S. and Canada, samples of intestinal tissues were taken from 447 participants with a clear diagnosis of Crohn's and 221 control participants with noninflammatory gastrointestinal conditions. The researchers also analyzed samples from an additional group of about 800 participants in previous studies, for a total of more than 1,500 individuals.

Advanced sequencing of the microbiome – the genome of the entire microbial population – in tissue samples taken from sites at the beginning and the end of the large intestine revealed a significant decrease in diversity in the microbial population of the Crohn's patients, who had yet to receive any treatment for their disease. The samples revealed an abnormal increase in the proportion of inflammatory organisms in Crohn's patients and a drop in noninflammatory and beneficial species, compared with the control participants. The imbalance was even greater in patients whose symptoms were more severe and those who had markers of inflammatory activity in tissue samples.

"These results identifying the association of specific bacterial groups with Crohn's disease provide opportunities to mine the Crohn's-disease-associated microbiome to develop diagnostics and therapeutic leads," said senior author Ramnik Xavier, MD, PhD, chief of the MGH Gastrointestinal Unit and director of the MGH Center for the Study of Inflammatory Bowel Disease.

Other key findings of the study include: identifying the niches of specific microbial strains in Crohn's disease and their effects on other microbial community members; finding that rectal biopsies can indicate the presence of disease early in the course of Crohn's, regardless of which intestinal segments are affected; showing that fecal samples collected at onset of disease do not reflect changes in the bacterial communities of the intestinal lining.

Antibiotics are often prescribed for symptoms suggestive of Crohn's before a diagnosis is made, but in participants who happened to be taking antibiotics at the time samples were taken, the microbial imbalance was even more pronounced, suggesting that the antibiotic use could actually exacerbate symptoms rather than relieve them, the authors note. Next steps will be to uncover the function of these microbes and their products and to learn how the microbiome and microbial products interact with the patient's immune system, with the possibility that these interactions could represent the molecular basis for the disease.

"Identifying which microbial products are key to disease onset and to inflammation resolution in inflammatory bowel disease and establishing which can be effectively targeted are our best hope to uncover the first microbiome-based therapies in IBD, says Xavier, who is the Isselbacher Professor of Medicine in Gastroenterology at Harvard Medical School.

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Dirk Gevers, PhD, of the Broad Institute is the lead author of the Cell Host and Microbe report. Additional co-authors include Curtis Huttenhower, PhD, Broad Institute and Harvard School of Public Health, and Rob Knight, PhD, University of Colorado, who developed novel methods to identify microbial community members in Crohn's disease; and the co-directors of the RISK Consortium Subra Kugathasan, MD, Emory University, and Lee Denson, MD, Cincinnati Children's Hospital. The study was supported by the Crohn's and Colitis Foundation of America, the Helmsley Charitable Trust, by Army Research Organization grant W911NF-11-1-0473, the MGH Center for the Study of Inflammatory Bowel Disease and by National Institutes of Health grants U54DE023798, R01HG005969 and R01DK092405.

Massachusetts General Hospital, founded in 1811, is the original and largest teaching hospital of Harvard Medical School. The MGH conducts the largest hospital-based research program in the United States, with an annual research budget of more than $775 million and major research centers in AIDS, cardiovascular research, cancer, computational and integrative biology, cutaneous biology, human genetics, medical imaging, neurodegenerative disorders, regenerative medicine, reproductive biology, systems biology, transplantation biology and photomedicine.


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