Getting That Gut Feeling
Clusters of MAIT cells in human blood and colon biopsies, resulting from high-dimensional bioinformatics analysis. Subpopulations of these defense cells group into colored "continents" according to the markers expressed by the cells. Credit: Department of Biomedicine, Tobias Rutishauser.
A little-explored group of immune cells plays an important role in the regulation of intestinal bacteria. Changing metabolic states of the microbes have an effect on defense cells at different stages of alert or rest, as researchers from the Department of Biomedicine at the University and University Hospital of Basel report in the journal "Mucosal Immunology."
It is known that the metabolites of bacteria influence the composition and function of immune cells resident within the gut. These defense cells include MAIT cells (mucosal-associated invariant T cells), which were only recently discovered and are naturally abundant in the gastrointestinal mucosa, skin liver and blood. These cells are specialized in recognizing the microorganisms living in every human being and monitoring their activities.
Different populations in gut vs. blood
A group led by Prof. Dr. Gennaro De Libero from the University of Basel and PD Dr. Petr Hruz from the University Hospital of Basel have investigated how MAIT cell activation and function is influenced by bacterial metabolites produced in normal colon. The study revealed that distinct populations of MAIT cells are located in the human intestinal mucosa. These populations were identified in gut biopsies using highly innovative methods and bioinformatics analyses.
Result: MAIT cells are present in variable states of alert and rest, in accordance with the metabolic state of intestinal bacterial flora. The defense cells are most frequently stimulated by bacteria grown under low-oxygen and slow growth-phase - conditions such as those found in the large intestine. MAIT cells can then directly influence local inflammation but also tissue healing and cell fitness in the gut by producing different messenger substances.
"Our results show that there is a fine balance occurring in the gut between microbial growth conditions, the production of stimulating metabolites and the response of MAIT defense cells," state the researchers. The metabolism of microbes in the intestine constantly adapts to changing host conditions. By detecting the metabolic state of enteric bacteria, MAIT cells can potentiate their function in mucosal immunosurveillance.
This article has been republished from materials provided by the University of Basel. Note: material may have been edited for length and content. For further information, please contact the cited source.
Modulation of bacterial metabolism by the microenvironment controls MAIT cell stimulation. Mathias Schmaler, Alessia Colone, Julian Spagnuolo, Michael Zimmermann, Marco Lepore, Artem Kalinichenko, Sumedha Bhatia, Fabien Cottier, Tobias Rutishauser, Norman Pavelka, Adrian Egli, Elisa Azzali, Marco Pieroni, Gabriele Costantino, Petr Hruz, Uwe Sauer, Lucia Mori & Gennaro De Libero. Mucosal Immunology (2018), doi:10.1038/s41385-018-0020-9.
Working Together Helps Phage Overcome CRISPRNews
Surprising results show that phage join forces to overcome bacteria’s CRISPR -based immune defenses. Improved understanding of the interactions between phage and their bacterial hosts could help advance phage-based therapies and stimulate viral research.READ MORE
DNA Methylation Related to Liver Disease in Obese PatientsNews
DNA methylation implicated in initiation of liver fibrosis in non-alcoholic fatty liver diseaseREAD MORE
Study in Mouse Model of Autism Finds Mother's Microbiome Determines RiskNews
The microbiome is the collection of microorganisms, such as bacteria, that naturally live inside us. New research in a mouse model suggests the microbiome determines autism risk.READ MORE