Background and aim: Current methods for visualization of the blood vasculature, biliary tree and for isolation of vital cholangiocytes are afflicted with a plethora of technical difficulties, especially in mice. In this project, we propose a novel, reliable and straightforward alternative technique for histological demonstration of blood- and biliary systems and derivation of vital cholangiocytes.
Methods: Intravital retrograde perfusion of bile ducts was performed in twenty wild type mice. Liver and gallbladder were exposed by median laparotomy. Using a venous catheter, the gallbladder was cannulated, a few millimeters of the liver edge were cropped to allow free outflow of the perfusate, and carboxyfluorescein diacetate succinimidyl ester (CFDA-SE) solution was retrogradely infused. Thereafter, formaldehyde solution was either injected through the same catheter, or the liver was immediately dissociated into a single-cell suspension for FACS-analysis. Intravital perfusion of the vascular system was performed in ten Lewis rats by direct intra-arterial injection of CFDA-SE into the abdominal aorta. The specificity and sensitivity of CFDA-SE labeling was controlled using Indian ink or cytokeratin 19 immunohistochemistry respectively.
Results: Upon histomorphological analysis of cryo- and paraffin sections, strong fluorescence was noted in large and small bile ducts throughout the entire liver and in the vascular system after infusion of the CFDA-SE solution. In preliminary FACS-experiments, we succeeded in separating cholangiocytes based on combined CFDA-SE-staining and cell size.
Conclusions: Visualization of liver architecture and the isolation of cholangiocytes is feasible using a fast and cost-effective method of retrograde perfusion and vital fluorescent labeling of mouse bile duct epithelium and vascular endothelium with CFDA-SE.