• Applied Microscopy
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• v.28 no.1
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• pp.73-82
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• 1998

To elucidate how microfilaments and vesicles participate in bile formation, the pericanalicular cytoplasms were observed in the liver of rats treated with taurocholic acid by deep etching with rapid freezing, and copmpared them with the findings on convensional thin sections. The microfilaments were identified around the bile canaliculi in the forms of core filaments of microvilli, filaments of pericanalicular web running in parallel to the border of bile canaliculi, and filaments on the junctional complex. In taurocholic acid-treated rats, microfilaments could be visualized around the bile canaliculi and along their borders. The microfilaments appeared to be installed to link to both the canalicular membrane and vesicles. Such specialized microfilaments are considered to participate in the translocation of vesicles in the pericanalicular cytoplasm. From the evidence, it is assumed that the microfilament induces the vesicles to transport and fuse to bile canalicull into which bile acids is secreted by exocytosis.

• Applied Microscopy
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• v.29 no.4
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• pp.437-450
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• 1999

Bile canaliculi are the structure delivering bile secreted by hepatocytes into the bile passage. Bile secretion is mainly controlled by the cytoskeletal elements, mainly of actin in the microvilli, pericanalicular web. Most studies on the bile secretion have been done in viva situation, however, to control the various parameters in vitro culture system seem to be more useful. To set up an in vitro experimental system, the investigator isolated hepatocytes with an enzymatic method using a mixture of collagenase and hyaluronidase from normal Sprague-Dawley rat liver and cultured. Isolated hepatocytes were round and formed cords in culture. Microvilli covered the whole surface of hepatocytes. Bile canaliculi were formed between hepatocytes and were characterized by the presence of microvilli of various lengths and shapes mainly arising from small surface mounds. Actin filament core in the microvilli and pericanalicular actin web were incomplete. After cytochalasin D treatment, cultured hepatocytes were round but the surface were irregular with surfacen blebs, folds and grooves. Microvilli on the surface were scarce. Bile canaliculi were markedly dilated often with the detached junctional complexes. Bile canaliculi lacks microvilli almost completely and extended into the pericanalirular cytoplasm showing complex vacuolar and tubular structures by transmission electron mciroscopy. Pericanalicular actin web, intermediate filaments were hardly identified. Subsurface actin filaments were scattered scarcely under the cell membranes. These results suggest that hepatocytes isolated from rats can survive and form bile canaliculi in culture and the actin filaments are involved in the formation and/or maintenance of the bile canaliculi.

• Korean Journal of Veterinary Research
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• v.35 no.4
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• pp.659-670
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• 1995

Cyclosporin A extracted from fungus Trichoderma polysporum Rifai and Cyclindrocarpon lucidum Booth serves as an important immunosuppressive drug in transplantation surgery. Systemic treatment with cyclosporin A induces an impairment of the biliary excretion of the bile salts and cholestasis. This study was designed to observe the Ultrastural changes of the hepatocytes and the bile canaliculi in cyclosporin A-induced intrahepatic cholestasis in rats. Cyclosporin A was injected into male Wistar rats intraperitoneally 50mg per kg body weight and rats were necropsied at 1, 3, 6, 9, 12, 24 hours. The liver tissues were observed with transmission and scanning electron microscopes and the results were as follows. Transmission electron microscopy: After cyclosporin A injection, SER and lysosomes were increased in the hepatocytes until 9 hours. At 12 hours after injection of cyclosporin A, RER with dilated cistern were increased, and SER, lysosomes in the cytoplasm were decreased. From 1 hour to 24 hours after injection of cyclosporin A, there were dilation of bile canalliculi and decreased or lost microvilli. At 24 hours the dilation of bile canaliculi were decreased. Scanning electron microsocopy: After cyclosporin A injection, the bile canaliculi were dilated and the microvilli were shortened, decreased or lost according to the sites. At 24 hours, the microvilli packing the bile canaliculi were observed. These observations suggest that cyclosporin A-induced cholestasis is associated with the dilation of bile canaliculi, increased microfilaments of the pericanalicular region and decreased or lost microvilli.