Apr 30, 2024
Yanín's Paper "Elastic Contractile Stress in the Basement Membrane Generates Basal Tension in Epithelia" has been published
Abstract
The shaping of epithelial tissues into functional organs often depends on dynamic changes of mechanical tension at the apical and basal sides of cells. While on the apical side, tension is known to be regulated by the apical actomyosin meshwork, basal tension regulation remains elusive due to the presence of a basal sheet of specialized extracellular matrix, the basement membrane. Here, we use atomic force microscopy to provide direct measurements of mechanical tension in the basal surface of the wing disk epithelium of Drosophila in control and perturbed conditions. We find that next to actomyosin, the basement membrane is a key structure for the generation of basal tension. Furthermore, we show that the basement membrane is a solidlike sheet subject to an expansile stretch in epithelial homeostasis. Performing osmotic shocks and optogenetic actomyosin activation, we find evidence that basal stretch and tension can be generated by intracellular hydrostatic pressure and actomyosin tension in lateral cell faces of the epithelium. In conclusion, we propose that elastic contractile stress corresponding to the actomyosin-induced expansile stretch of the basement membrane generates a major contribution to basal tension. We thereby disclose fundamental differences in the mechanical regulation of apical and basal epithelial tension.
K. Yanín Guerra Santillán1,2, Christian Dahmann2,1,*, and Elisabeth Fischer-Friedrich1,2,3,*
- 1Cluster of Excellence Physics of Life, Technische Universität Dresden, Dresden, Germany
- 2School of Science, Technische Universität Dresden, Dresden, Germany
- 3Biotechnology Center, Technische Universität Dresden, Dresden, Germany
- *Corresponding authors: christian.dahmann@tu-dresden.de; elisabeth.fischer-friedrich@tu-dresden.de