Carolina Tropini
Assistant Professor, University of British Columbia,
School of Biomedical Engineering and Department of
Microbiology and Immunology
Monday, October 21, 2019 - 4:00pm
MSB 3153
Invited Speaker Seminar
Abstract:
The consortium of microbes living in and on our bodies is intimately connected with human biology
and deeply influenced by physical forces. Despite incredible gains in describing this community, and
emerging knowledge of the mechanisms linking it to human health, understanding the basic physical
properties and responses of this ecosystem has been comparatively neglected. Most diseases have
significant physical effects on the gut. Understanding the impact of common physical factors is
necessary for engineering robust microbiota members and communities; however, our knowledge of
how they affect the gut ecosystem is poor.
We are investigating how changes in osmolality affect the host and the microbial community and
lead to mechanical shifts in the cellular environment. Osmotic perturbation is extremely prevalent in
humans, caused by the use of laxatives, lactose intolerance, or celiac disease. In our studies we
monitored osmotic shock to the microbiota using a comprehensive and novel approach, which
combined in vivo experiments to imaging, physical measurements, computational analysis and
highly controlled microfluidic experiments. By bridging several disciplines, we developed a
mechanistic understanding of the processes involved in osmotic diarrhea, linking single-cell
biophysical changes to large-scale community dynamics. Our results indicate that physical
perturbations can profoundly and permanently change the competitive and ecological landscape of
the gut, and affect the cell wall of bacteria differentially, depending on their mechanical
characteristics.
Host:
William Navarre
Department of Molecular Genetics
Poster: