A morphogenetic EphB/EphrinB code controls hepatopancreatic duct formation

• Published in: Nature communications Vol. 10; no. 1; pp. 5220 - 15
• Main Authors: Thestrup, M. Ilcim, Caviglia, Sara, Cayuso, Jordi, Heyne, Ronja L. S., Ahmad, Racha, Hofmeister, Wolfgang, Satriano, Letizia, Wilkinson, David G., Andersen, Jesper B., Ober, Elke A.
• Format: Journal Article
• Language: English
• Published: London Nature Publishing Group UK 19.11.2019; Nature Publishing Group; Nature Portfolio
• Subjects: 13/51; 14; 14/19; 38; 38/1; 45; 45/41; 49/61; 59; 631/136; 631/80; 64; 64/116; 692/4020; Animals; Animals, Genetically Modified; Bile; Bile Ducts - embryology; Bile Ducts - metabolism; Cell Differentiation - genetics; Contractility; Ducts; Ephrin-B1 - genetics; Ephrin-B1 - metabolism; Ephrin-B3 - genetics; Ephrin-B3 - metabolism; Gene Expression Profiling; Hepatopancreas - embryology; Hepatopancreas - metabolism; Humanities and Social Sciences; Intestine; Ligands; Morphogenesis; Morphogenesis - genetics; multidisciplinary; Mutation; Myosin; Pancreas; Protein Binding; Receptors; Receptors, Eph Family - genetics; Receptors, Eph Family - metabolism; Science; Science (multidisciplinary); Sensory neurons; Signal Transduction - genetics; Zebrafish; Zebrafish - embryology; Zebrafish - genetics; Zebrafish - metabolism; Zebrafish Proteins - genetics; Zebrafish Proteins - metabolism
• ISSN: 2041-1723; 2041-1723
• DOI: 10.1038/s41467-019-13149-7

The hepatopancreatic ductal (HPD) system connects the intrahepatic and intrapancreatic ducts to the intestine and ensures the afferent transport of the bile and pancreatic enzymes. Yet the molecular and cellular mechanisms controlling their differentiation and morphogenesis into a functional ductal system are poorly understood. Here, we characterize HPD system morphogenesis by high-resolution microscopy in zebrafish. The HPD system differentiates from a rod of unpolarized cells into mature ducts by de novo lumen formation in a dynamic multi-step process. The remodeling step from multiple nascent lumina into a single lumen requires active cell intercalation and myosin contractility. We identify key functions for EphB/EphrinB signaling in this dynamic remodeling step. Two EphrinB ligands, EphrinB1 and EphrinB2a, and two EphB receptors, EphB3b and EphB4a, control HPD morphogenesis by remodeling individual ductal compartments, and thereby coordinate the morphogenesis of this multi-compartment ductal system. The hepatopancreatic ductal (HPD) system connects both liver and pancreas to the intestine but the molecular details of HPD development are unclear. Here, the authors describe how regionalised Eph/Ephrin signaling regulates HPD morphogenesis by promoting cellular rearrangements leading to an open tube.