Intestinal tissue during a graft-versus-host reaction: Donor cells (red) attack the body of the patient. Credit: Sebastian Jarosch, Dirk Busch / TUM
After stem cell transplantation, the donated immune cells sometimes attack the patients’ bodies. This is known as graft versus host disease or GvHD. Researchers at the Technical University of Munich (TUM) and the Universitätsklinikum Regensburg (UKR) have shown that GvHD is much less common when certain microbes are present in the gut. In the future, it may be possible to deliberately bring about this protective composition of the microbiome.
The researchers studied stool samples from 78 patients at the two university clinics and tracked them over two years following stem cell transplantation. They used the results to develop a risk index indicating the probability of a rejection reaction. “Instead of counting bacteria, we measured the quantities of certain metabolites produced by the microbes,” says Erik Thiele Orberg.
These immuno-modulatory microbial metabolites (IMMs) influence the immune system and the body’s regenerative capacity. “It is remarkable that a positive prognosis does not depend only on IMMs from bacteria,” says Dr. Elisabeth Meedt, a physician at UKR and co-first author of the article. “We demonstrated that certain viruses in the gut – the bacteriophages – also play a role. This alone offers an impressive insight into the complex world of our gut microbiome.”
Better prognosis with low microbiome scores
“Patients with a low IMM risk index had a higher chance of survival, showed fewer graft vs. host reactions, and experienced fewer relapses,” says Hendrik Poeck. The metabolites are formed mainly by bacteria from the families Lachnospiraceae and Oscillospiraceae in combination with the bacteriophages.
Actively improving the probability of recovery
In the next step, the researchers at TUM and UKR want to predict and actively improve patients’ chances at a cure. “By precisely controlling the composition of fecal microbiota transplants, the gut could be colonized with specific consortia of bacteria and bacteriophages,” says Hendrik Poeck. “In the coming years, we want to find out whether we can use this approach to prevent graft vs. host reactions as well as relapses,” Initial experiments with mice have been successful. As a result, the procedure could now be tested in clinical trials with human patients.
News source: Technical University Munich.