Vroman B, LaRusso N F
Center for Basic Research in Digestive Diseases, Mayo Clinic, Rochester, Minnesota 55905, USA.
Lab Invest. 1996 Jan;74(1):303-13.
The study of intrahepatic bile duct epithelial cells (i.e., cholangiocytes) has been limited by the lack of a polarized in vitro model that allows easy access to both apical and basolateral cell surfaces. Therefore, we developed a cell line of polarized normal rat cholangiocytes (NRCs) and established conditions that produced a confluent monolayer of cells grown on collagen-coated filters of tissue culture inserts. We passaged NRCs at high density to collagen-coated, tissue-culture inserts and measured transepithelial electrical resistance. We evaluated ultrastructural features by transmission and scanning electron microscopy. gamma-glutamyl-transpeptidase (gamma GT) was visualized in cultured cells by enzyme histochemistry, and cytokeratin (CK)-7, CK-19, vimentin, and desmin staining was done by immunohistochemistry. We studied the biologic responsiveness and functional polarity of NRCs by measuring their levels of cyclic AMP after addition of forskolin with or without somatostatin to either the apical or basolateral chambers. When seeded with approximately 1 x 10(5) cells/cm2, the NRCs formed a confluent monolayer in 72 hr. Transepithelial electrical resistance increased over time, achieving a maximum of 625 (+- 25) ohms.cm2 by 1 week after confluence. Transmission and electron microscopy scanning showed the apical cell surface to be tightly packed with microvilli with a heterogeneous display of cilia ranging from none to 20 to 30 cilia/cell. On transmission, apically positioned tight junctions and vesicles were apparent; nuclei were oriented basally and the basolateral surface was characterized by membrane interdigitations. NRCs stained positively for the cholangiocyte marker proteins, gamma-glutamyl-transpeptidase, CK-7, and CK-19, and negative for the mesenchymal markers, vimentin, and desmin. Exposure of the basolateral (but not the apical) cell surface to somatostatin caused a 60% inhibition of forskolin-induced increases in intracellular levels of cyclic AMP, suggesting the presence of somatostatin receptors exclusively on the basolateral plasma membrane domain. We have developed a unique model of primary cultures of normal rat cholangiocytes in which the apical and basolateral surfaces are easily accessible; the cells develop intermediate-strength tight junctions, retain their cholangiocyte phenotype, display morphologic and functional polarity, and are responsive to hormones. This model should be useful for the assessment of vectorial transport of solutes and other constituents of blood and bile, as well as for studying growth regulation of cholangiocytes.
肝内胆管上皮细胞(即胆管细胞)的研究一直受到限制,因为缺乏一种极化的体外模型,无法方便地接触到细胞的顶端和基底外侧表面。因此,我们建立了一种极化的正常大鼠胆管细胞(NRCs)细胞系,并建立了在组织培养插入物的胶原包被滤膜上生长形成汇合单层细胞的条件。我们将NRCs以高密度传代至胶原包被的组织培养插入物上,并测量跨上皮电阻。我们通过透射电子显微镜和扫描电子显微镜评估超微结构特征。通过酶组织化学在培养细胞中观察γ-谷氨酰转肽酶(γGT),通过免疫组织化学进行细胞角蛋白(CK)-7、CK-19、波形蛋白和平滑肌肌动蛋白染色。我们通过在顶端或基底外侧腔室中添加福斯可林(无论有无生长抑素)后测量细胞内环磷酸腺苷(cAMP)水平,研究了NRCs的生物学反应性和功能极性。当以约1×10⁵个细胞/cm²接种时,NRCs在72小时内形成汇合单层。跨上皮电阻随时间增加,汇合后1周达到最大值625(±25)欧姆·cm²。透射电子显微镜扫描显示,顶端细胞表面紧密排列着微绒毛,纤毛分布不均,每个细胞的纤毛数量从无到20至30根不等。在透射电镜下,顶端定位的紧密连接和小泡明显可见;细胞核位于基底,基底外侧表面以膜指状交错为特征。NRCs对胆管细胞标记蛋白γ-谷氨酰转肽酶、CK-7和CK-19呈阳性染色,对间充质标记物波形蛋白和平滑肌肌动蛋白呈阴性染色。基底外侧(而非顶端)细胞表面暴露于生长抑素会导致福斯可林诱导的细胞内环磷酸腺苷水平升高受到60%的抑制,这表明生长抑素受体仅存在于基底外侧质膜结构域。我们建立了一种独特的正常大鼠胆管细胞原代培养模型,其中顶端和基底外侧表面易于接触;细胞形成中等强度的紧密连接,保留其胆管细胞表型,表现出形态和功能极性,并对激素有反应。该模型可用于评估溶质以及血液和胆汁中其他成分的向量转运,也可用于研究胆管细胞的生长调节。
