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1. Intravital Dynamic and Correlative Imaging of Mouse Livers Reveals Diffusion-Dominated Canalicular and Flow-Augmented Ductular Bile Flux

Author

Georgia Guenther, Brigitte Begher-Tibbe, Adrian Friebel, Amruta Damle-Vartak, Nachiket Vartak, Florian Joly, Fabian Geisler, Simone Jörs, Jörns Fickel, Dirk Drasdo, Gudrun Wibbelt, Jan G. Hengstler, Ahmed Ghallab, Heribert Hofer, Stefan Hoehme, Irene E. Vignon-Clementel, Kasimir Wansing, Christian Hedberg, Marie Rosselin, Noemie Boissier, and Peter L.M. Jansen

Subjects

0301 basic medicine, mouse livers, Gastroenterology and Hepatology, Bone canaliculus, digestive system, Bile flow, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Gastroenterologi, medicine, small-molecule flux, Fluorescein, Hepatology, Chemistry, imaging, 500 Naturwissenschaften und Mathematik::570 Biowissenschaften, Biologie::570 Biowissenschaften, Biologie, ddc, Interlobular bile ducts, 030104 developmental biology, medicine.anatomical_structure, Hepatocyte, Biophysics, Diffusive flux, 030211 gastroenterology & hepatology, Correlative imaging, Concentration gradient

Abstract

Small-molecule flux in tissue-microdomains is essential for organ function, but knowledge of this process is scant due to the lack of suitable methods. We developed two independent techniques that allow the quantification of advection (flow) and diffusion in individual bile canaliculi and in interlobular bile ducts of intact livers in living mice, namely Fluorescence Loss After Photoactivation (FLAP) and Intravital Arbitrary Region Image Correlation Spectroscopy (IVARICS). The results challenge the prevailing 'mechano-osmotic' theory of canalicular bile flow. After active transport across hepatocyte membranes bile acids are transported in the canaliculi primarily by diffusion. Only in the interlobular ducts, diffusion is augmented by regulatable advection. Photoactivation of fluorescein bis-(5-carboxymethoxy-2-nitrobenzyl)-ether (CMNB-caged fluorescein) in entire lobules demonstrated the establishment of diffusive gradients in the bile canalicular network and the sink function of interlobular ducts. In contrast to the bile canalicular network, vectorial transport was detected and quantified in the mesh of interlobular bile ducts. In conclusion, the liver consists of a diffusion dominated canalicular domain, where hepatocytes secrete small molecules and generate a concentration gradient and a flow-augmented ductular domain, where regulated water influx creates unidirectional advection that augments the diffusive flux.

Published

2021