Bile Ductular Epithelial Cells Research Articles

Effects of medium and substratum conditions on the rates of DNA synthesis in primary cultures of bile ductular epithelial cells

Select medium and substratum conditions were investigated for their effects on semiconservative DNA synthesis in essentially pure primary cultures of bile ductular epithelial cells that were initially isolated from cholestatic rat livers at 6 to 10 wk after bile duct ligation. DNA synthesis in these cultured cells was serum-dependent, being at its highest level when the concentration of fetal bovine serum present in the medium was maintained at 10%. This serum-dependent DNA synthesis was completely inhibited when 10 mM hydroxyurea was also included in the medium, and bile ductular cells cultured in the continued presence of 1.0% fetal bovine serum showed only marginal DNA synthesis during 8 to 10 d of primary culture when compared with no-serum controls. Maximum rates of serum-dependent DNA synthesis were obtained when the bile ductular cells were cultured for 7 to 14 d on tissue culture plastic coated with either fibronectin from bovine plasma or type I rat-tail collagen. Cells cultured on plastic coated with basement membrane Matrigel exhibited the lowest levels of DNA synthesis, whereas those on plastic alone had intermediate amounts. Furthermore, the addition of epidermal growth factor (50 ng.ml-1.d-1) to medium supplemented with 1.0% fetal bovine serum greatly enhanced the rate of DNA synthesis in bile ductular cells after 6 d in primary culture on type I collagen-coated plastic over that measured in solvent control cultures. These findings indicate that our bile ductular epithelial cell culture model is potentially useful in the study of biliary cell growth regulation and carcinogenesis.

Enzyme profile of rat bile ductular epithelial cells in reference to the resistance phenotype in hepatocarcinogenesis†

An extensive bile ductular cell hyperplasia with the formation of well-differentiated bile ductules is the most prominent feature of rat liver at 6 to 15 weeks after bile duct ligation. We have improved our previous cell isolation procedure and are now routinely able to obtain from such livers high yields of viable bile ductular epithelial cells. These cells were characterized with respect to their specific activities of gamma-glutamyl transpeptidase and beta-glucuronidase and of select Phase I and Phase II enzymes of biotransformation. At the time of their isolation, only a very small number of the bile ductular epithelial cells were observed to be in DNA synthesis. In addition, in histological sections prepared from intact hyperplastic bile ductular tissue isolates, only the bile ductular epithelial cells exhibited histochemical staining for gamma-glutamyl transpeptidase activity. Typically, greater than 95% of the cells isolated from this tissue were also found to be histochemically positive for gamma-glutamyl transpeptidase activity, and no hepatocytes were seen contaminating this cell population. Biochemically, the isolated bile ductular cells exhibited a gamma-glutamyl transpeptidase specific activity that was 100 times higher than that of hepatocytes isolated at the same time from the bile duct-ligated rats and more than 300 times higher than the specific activity of the enzyme of freshly isolated normal rat hepatocytes.(ABSTRACT TRUNCATED AT 250 WORDS)

Electron microscopic observations on single cilia in the intrahepatic biliary ducts in some birds.

The intrahepatic biliary passage in five species of birds was investigated with the transmission electron microscope. The avian liver was characterized by a frequent occurrence of intralobular bile ductules and canaliculo-ductular junctions in the parenchyma. It was further characterized by solitary bile ductular epithelial cells intercalated among hepatocytes surrounding bile canaliculi. The present study first revealed that avian bile ductular epithelial cells possess a long single cilium. Its basal body (distal centriole) was connected to a basal foot and slender rootlet and accompanied by a proximal centriole. The hepatocytes facing the bile passage possessed no cilium, although they frequently had a diplosome in their apical cytoplasm. The single cilia of the bile ductular epithelium gradually tapered toward the tip. The original fiber pattern in the most proximal part was peripheral 9 doublets +0. In the ciliary shaft, the doublets altered into singlets which were diminished in number gradually toward the distal parts of the shaft, so that in the tip only one singlet remained. Since these fiber patterns in the single cilia markedly deviated from the 9 + 2 fiber pattern of the ordinary motile cilia, they may not be motile, but properly regarded as sensory or chemoreceptors.