Bile canaliculi remodeling activates YAP via the actin cytoskeleton during liver regeneration
Open Access
- 24 February 2020
- journal article
- research article
- Published by Springer Science and Business Media LLC in Molecular Systems Biology
- Vol. 16 (2), e8985
- https://doi.org/10.15252/msb.20198985
Abstract
The mechanisms of organ size control remain poorly understood. A key question is how cells collectively sense the overall status of a tissue. We addressed this problem focusing on mouse liver regeneration. Using digital tissue reconstruction and quantitative image analysis, we found that the apical surface of hepatocytes forming the bile canalicular network expands concomitant with an increase in F‐actin and phospho‐myosin, to compensate an overload of bile acids. These changes are sensed by the Hippo transcriptional co‐activator YAP, which localizes to apical F‐actin‐rich regions and translocates to the nucleus in dependence of the integrity of the actin cytoskeleton. This mechanism tolerates moderate bile acid fluctuations under tissue homeostasis, but activates YAP in response to sustained bile acid overload. Using an integrated biophysical–biochemical model of bile pressure and Hippo signaling, we explained this behavior by the existence of a mechano‐sensory mechanism that activates YAP in a switch‐like manner. We propose that the apical surface of hepatocytes acts as a self‐regulatory mechano‐sensory system that responds to critical levels of bile acids as readout of tissue status.Keywords
Funding Information
- Bundesministerium für Bildung und Forschung (315757, 031L0038, 031L008A, 031L0044)
- H2020 European Research Council (695646)
- Max-Planck-Gesellschaft
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