The H2 produced by fermentation has to be disposed of very efficiently, since the buildup of H2 strongly disrupts gut function. The harmful accumulation of H2 is prevented by three groups of H2-consuming microbes - sulfate-reducing bacteria (SRB), acetogens, and methanogens.
Thus, H2 is a critical metabolite in the gut that controls colonic fermentation and the flow of energy and carbon to the host. Yet, we do not understand the identity of the major functional producers/ consumers of H2, the ecological forces that drive one or more of the H2-consuming guilds to colonize the gut, or the microbe-microbe interactions between fermenters and H2-consumers that lead to efficient H2 dispersal. The objectives of the proposed research program are to 1) determine what pathways for H2 production and consumption are actively expressed in the gut using a mouse model, 2) elucidate the identity and spatial distribution of hydrogen producers/consumers in the mouse gut at the single cell level, and 3) resolve the metabolic flexibility and substrate preference of intestinal SRB – a group of microorganisms strongly associated with gastrointestinal disease. Overall, these research actions will produce the first characterization of the microbiota community members that actively influence the hydrogen economy in the gut in-situ and how these microbe-microbe interactions control colonic fermentation.
This MSCA-IF-EF-ST project of K. Dimitri Kits has received funding from the European Union’s Horizon 2020 Framework Programme under grant agreement No. 796687.
Investigated by:
- Solntseva N
- Ullrich A
- Kits K
- Loy A