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Abstract:
Hepatocytes grow their apical surfaces anisotropically to generate a 3D network of bile canaliculi (BC). BC elongation is ensured by apical bulkheads, membrane extensions that traverse the lumen and connect juxtaposed hepatocytes. We hypothesize that apical bulkheads are mechanical elements that shape the BC lumen in liver development but also counteract elevated biliary pressure. Here, by resolving their structure using STED microscopy, we found that they are sealed by tight junction loops, connected by adherens junctions, and contain contractile actomyosin, characteristics of mechanical function. Apical bulkheads persist at high pressure upon microinjection of fluid into the BC lumen, and laser ablation demonstrated that they are under tension. A mechanical model based on ablation results revealed that apical bulkheads double the pressure BC can hold. Apical bulkhead frequency anticorrelates with BC connectivity during mouse liver development, consistent with predicted changes in biliary pressure. Our findings demonstrate that apical bulkheads are load-bearing mechanical elements that could protect the BC network against elevated pressure.
SEEK ID: https://seek.lisym.org/publications/351
Projects: DEEP-HCC network, Forschungsnetzwerk LiSyM-Krebs
Publication type: Journal
Journal: Journal of Cell Biology
Citation: Journal of Cell Biology 222(4),e202208002
Date Published: 3rd Apr 2023
Registered Mode: by DOI
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Bebelman, M. P., Bovyn, M. J., Mayer, C. M., Delpierre, J., Naumann, R., Martins, N. P., Honigmann, A., Kalaidzidis, Y., Haas, P. A., & Zerial, M. (2023). Hepatocyte apical bulkheads provide a mechanical means to oppose bile pressure. In Journal of Cell Biology (Vol. 222, Issue 4). Rockefeller University Press. https://doi.org/10.1083/jcb.202208002
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Created: 8th Feb 2023 at 18:16
Last updated: 8th Mar 2024 at 07:44
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