Ultrastructural and metabolic studies of isolated and cultured hepatocytes

Cells isolated from adult rat liver form distinct cell populations: the parenchymal cells or hepatocytes and the non-parenchymal cells, mainly endothelial and Kupffer cells. These two groups are easy to separate by centrifugation methods, including centrifugal elutriation. The single-cell suspension of hepatocytes seems to be constituted of subfractions which are located roughly in the centrilobular and perilobular regions of the liver lobule and are differentiated so that they form cell lines with distinct metabolic activities. The basic means of characterizing the isolated hepatocytes consists of determining their size distribution, their sedimentation and elutriation properties, and their metabolic activities. Cultures of hepatocytes offer the possibility of prolonging their survival and of studying the differentiation of new bile canaliculi and the reconstitution of biliary polarity in the cytoplasm. The combination of Kupffer cells with hepatocytes improves the culture condition, as a result of elimination of cell debris by phagocytosis by the non-parenchymal cells. The application of the isolation and partition methods to pre-neoplastic liver allows us to classify the cells according to their degree of hyperplasia and opens up a new field of investigation.

Non invasive high resolution in vivo imaging of alpha-naphthylisothiocyanate (ANIT) induced hepatobiliary toxicity in STII medaka

A novel transparent stock of medaka (Oryzias latipes; STII), homozygous recessive for all four pigments (iridophores, xanthophores, leucophores, melanophores), permits transcutaneous, high resolution (<1 microm) imaging of internal organs and tissues in living individuals. We applied this model to in vivo investigation of alpha -naphthylisothiocyanate (ANIT) induced hepatobiliary toxicity. Distinct phenotypic responses to ANIT involving all aspects of intrahepatic biliary passageways (IHBPs), particularly bile preductular epithelial cells (BPDECs), associated with transitional passageways between canaliculi and bile ductules, were observed. Alterations included: attenuation/dilation of bile canaliculi, bile preductular lesions, hydropic vacuolation of hepatocytes and BPDECs, mild BPDEC hypertrophy, and biliary epithelial cell (BEC) hyperplasia. Ex vivo histological, immunohistochemical, and ultrastructural studies were employed to aid in interpretation of, and verify, in vivo findings. 3D reconstructions from in vivo investigations provided quantitative morphometric and volumetric evaluation of ANIT exposed and untreated livers. The findings presented show for the first time in vivo evaluation of toxicity in the STII medaka hepatobiliary system, and, in conjunction with prior in vivo work characterizing normalcy, advance our comparative understanding of this lower vertebrate hepatobiliary system and its response to toxic insult.

Cholangiocyte cilia detect changes in luminal fluid flow and transmit them into intracellular Ca2+ and cAMP signaling

BACKGROUND & AIMS

Cholangiocytes have primary cilia extending from the apical plasma membrane into the ductal lumen. While the physiologic significance of cholangiocyte cilia is unknown, studies in renal epithelia suggest that primary cilia possess sensory functions. Here, we tested the hypothesis that cholangiocyte cilia are sensory organelles that detect and transmit luminal bile flow stimuli into intracellular Ca2+ ([Ca2+]i) and adenosine 3',5'-cyclic monophosphate (cAMP) signaling.

METHODS

Scanning electron microscopy, transmission electron microscopy, and immunofluorescent confocal microscopy of rat isolated intrahepatic bile duct units (IBDUs) were used to detect and characterize cholangiocyte cilia. The fluid flow-induced changes in Ca2+ and cAMP levels in cholangiocytes of microperfused IBDUs were detected by epifluorescence microscopy and a fluorescence assay, respectively.

RESULTS

In microperfused IBDUs, luminal fluid flow induced an increase in [Ca2+]i and caused suppression of the forskolin-stimulated cAMP increase. The fluid flow-induced changes in [Ca2+]i and cAMP levels were significantly reduced or abolished when cilia were removed by chloral hydrate or when ciliary-associated proteins polycystin-1 (a mechanoreceptor), polycystin-2 (a Ca2+ channel), and the Ca2+-inhibitable adenylyl cyclase isoform 6 were individually down-regulated by small interfering RNAs.

CONCLUSIONS

Cholangiocyte cilia are sensory organelles containing polycystin-1, polycystin-2, and adenylyl cyclase isoform 6 through which luminal fluid flow affects both [Ca2+]i and cAMP signaling in the cell. The data suggest a new model for regulation of ductal bile secretion involving cholangiocyte cilia.

An immunohistochemical study of human fetal liver in the Meckel-Gruber syndrome

AIMS

The ductal plate abnormality of the liver in fetuses with the Meckel-Gruber syndrome has been well characterised, but its aetiology remains unknown. We have analysed liver structure in six fetuses with this syndrome, using routine histology, immunocytochemistry, and electron microscopy.

METHODS

Liver tissue from six fetuses of 11-27 weeks gestational age was examined by immunoperoxidase staining with antigens to cyokeratin (AE1/3) and polyclonal CEA. We also examined the ultrastructure of the syndromic fetal liver. The findings were compared with livers of control fetuses obtained from miscarriages, of similar size and gestational age but without dysmorphic features or developmental anomalies.

RESULTS

The ductal plate abnormality was present in all the fetuses with the Meckel-Gruber syndrome. There were abnormalities of biliary excretion in all syndromic fetuses. Ultrastructural studies of the portal tract revealed abnormal collagen bundles in the Meckel-Gruber syndrome.

CONCLUSIONS

Our findings, in conjunction with other reports in the literature, suggest that the ductal plate abnormality may be caused by failure of anastomosis of the intra- and extrahepatic biliary systems, perhaps in association with abnormalities of the portal tract stroma and biliary excretion.

Morphological Characterization of Ductular Reactions in Canine Liver Disease

Intrahepatic bile duct proliferation (ductular reaction) was examined histologically, immunohistochemically and ultrastructurally in four cases of canine liver disease, diagnosed as chronic hepatitis, liver fibrosis, cirrhosis and cholangiocellular carcinoma. Ductular reaction was a common finding in all cases. Most of the proliferated bile ducts were similar to normal bile ducts. In addition, duct-like structures occurred, consisting of hepatocytes and of intermediate cells that had phenotypic characteristics of both cholangiocytes and hepatocytes. The proliferated bile ducts were immunohistochemically negative for proliferating cell nuclear antigen (PCNA) and stem cell factor (SCF). The proliferated bile ducts in these four cases of canine liver disease thus showed both typical ductular reactions, such as elongation and tortuosity of the existing bile ducts, and atypical ductular reactions resulting from metaplasia of hepatocytes.

Evaluation of differential gene expression by microarray analysis in small and large cholangiocytes isolated from normal mice

AIMS

We have shown that large and small cholangiocytes, which reside primarily in large and small intrahepatic bile ducts, respectively, have different functions and responses to injuries. However, there are no systematic studies of the molecular differences between small and large cholangiocytes, which would explain cholangiocyte heterogeneity. To evaluate the differential gene expression between small and large cholangiocytes, microarray analysis was performed.

METHODS

Primary cultures of small and large cholangiocytes were isolated from normal mice (BALB/c), and immortalized by the introduction of the SV40 large T antigen gene. After cloning, small and large cholangiocyte cell lines were established. Their characteristic features were confirmed by electron microscopy (EM) and measurement of transepithelial electrical resistance (TER), and secretin-stimulated cAMP levels. Isolated total RNAs were hybridized with microarrays (Atlas Glass Array Mouse 1.0 and 3.8), which detects 4850 cDNA expressions. After hybridization, the fluorescent signals were scanned by a GenePix fluorescent scanner and analyzed using ArrayGauge software.

RESULTS

EM, TER and secretin-stimulated cAMP synthesis are consistent with the concept that small and large immortalized cholangiocytes originate from small and large ducts, respectively. When a cut-off value at the expression signal difference of 3.0 times was employed, 230 cDNAs among 4850 cDNAs (4.74%) were differentially expressed between small and large cholangiocytes. Of these 230 cDNAs, aquaporin 8, IL-2 receptor beta chain and caspase 9 were more strongly expressed by large cholangiocytes.

CONCLUSIONS

Microarray successfully displayed characteristic differential cDNA expression between small and large cholangiocytes. This technique provides molecular information, which further supports our hypothesis that small and large bile ducts have different functions.

Does a betaretrovirus infection trigger primary biliary cirrhosis?

Patients with primary biliary cirrhosis develop progressive ductopenia associated with the production of antimitochondrial antibodies that react with a protein aberrantly expressed on biliary epithelial cells and peri-hepatic lymph nodes. Although no specific microbe has been identified, it is thought that an infectious agent triggers this autoimmune liver disease in genetically predisposed individuals. Previous serologic studies have provided evidence to suggest a viral association with primary biliary cirrhosis. Here we describe the identification of viral particles in biliary epithelium by electron microscopy and the cloning of exogenous retroviral nucleotide sequences from patients with primary biliary cirrhosis. The putative agent is referred to as the human betaretrovirus because it shares close homology with the murine mammary tumor virus and a human retrovirus cloned from breast cancer tissue. In vivo, we have found that the majority of patients with primary biliary cirrhosis have both RT-PCR and immunohistochemistry evidence of human betaretrovirus infection in lymph nodes. Moreover, the viral proteins colocalize to cells demonstrating aberrant autoantigen expression. In vitro, we have found that lymph node homogenates from patients with primary biliary cirrhosis can induce autoantigen expression in normal biliary epithelial cells in coculture. Normal biliary epithelial cells also develop the phenotypic manifestation of primary biliary cirrhosis when cocultivated in serial passage with supernatants containing the human betaretrovirus or the murine mammary tumor virus, providing a model to test Koch's postulates in vitro.

Agonist-induced coordinated trafficking of functionally related transport proteins for water and ions in cholangiocytes

We previously proposed that ductal bile formation is regulated by secretin-responsive relocation of aquaporin 1 (AQP1), a water-selective channel protein, from an intracellular vesicular compartment to the apical membrane of cholangiocytes. In this study, we immunoisolated AQP1-containing vesicles from cholangiocytes prepared from rat liver; quantitative immunoblotting revealed enrichment in these vesicles of not only AQP1 but also cystic fibrosis transmembrane regulator (CFTR) and AE2, a Cl- channel and a Cl-/HCO3- exchanger, respectively. Dual labeled immunogold electron microscopy of cultured polarized mouse cholangiocytes showed significant colocalization of AQP1, CFTR, and AE2 in an intracellular vesicular compartment; exposure of cholangiocytes to dibutyryl-cAMP (100 microm) resulted in co-redistribution of all three proteins to the apical cholangiocyte plasma membrane. After administration of secretin to rats in vivo, bile flow increased, and AQP1, CFTR, and AE2 co-redistributed to the apical cholangiocyte membrane; both events were blocked by pharmacologic disassembly of microtubules. Based on these in vitro and in vivo observations utilizing independent and complementary approaches, we propose that cholangiocytes contain an organelle that sequesters functionally related proteins that can account for ion-driven water transport, that this organelle moves to the apical cholangiocyte membrane in response to secretory agonists, and that these events account for ductal bile secretion at a molecular level.

The PICM-19 cell line as an in vitro model of liver bile ductules: effects of cAMP inducers, biopeptides and pH

The PICM-19 fetal liver cell line was isolated from the primary culture and spontaneous differentiation of pig epiblast cells, i.e. embryonic stem cells. PICM-19 cells were induced to differentiate into mostly ductular formations by culturing at pH 7.6-7.8. The ductules were functionally assayed by treatment with cAMP inducing agents and bioactive peptides reported to influence the secretory activity of liver bile ductules. The secretory response of the cells was assessed by qualitative or quantitative measurement of the cross-sectional area of the ductal lumens and the appearance of biliary canaliculi in between PICM-19 cells that had formed monolayers instead of ducts. Forskolin (10 microM) and 8-bromoadenosine 3':5'-cyclic monophosphate (bcAMP; 2 mM) stimulated fluid transport and expansion of ductal structures in 15-20 min and stimulated the appearance and expansion of biliary canaliculi in 30-60 min. Cholera toxin (50 ng/ml) stimulates fluid transport in both ductules and canaliculi in 1-2 h, while 8-bromoguanosine 3':5'-cyclic monophosphate (bcGMP; 2 mM) stimulated only biliary canaliculi in 2 h. Glucagon (1.4 nM) produced a similar response in 5-10 min in ductal structures only, but the response was transitory and was almost completely reversed within 30 min. Secretin (100 pM) and vasoactive intestinal peptide (75 pM) produced a sustained response with maximal ductal lumen expansion occurring in 5-10 min and neither had an immediate effect on canaliculi. Somatostatin (0.5 microM) and gastrin (1 microM) caused marked reduction or disappearance of ductal lumens in 30-60 min, but was ineffective in reversing secretin (100 nM)-induced duct distension. Application of the adrenergic agonists, epinephrine, isoproterenol, and phenylephrine (100 microM), resulted in the complete shrinkage of ductal lumens in 20-30 min. A shift to pH 7.0-7.2 resulted in almost complete reduction of ductal lumens, while a shift to pH 7.8-8.0 resulted in expansion, although not full expansion, of the ductal lumens. PICM-19 bile duct cultures were positive for cytokeratin-7, aquaporin-1 and aquaporin-9 by Western blot analysis. The amounts of these proteins increased in the cultures as differentiation proceeded over time. Transmission electron microscopy revealed that the ductal structures were usually sandwiched between SIM mouse, thioguanine- and ouabain-resistant (STO) feeder cells that had produced a collagen matrix. Also, the ductular PICM-19 cells possessed cilia, probably occurring as a single cilium in each cell, that projected into the lumens of the ducts. The results indicated that the in vitro-produced ductal structures of the PICM-19 cell line are a functional model for biliary epithelium.

Study of experimentally induced lesions in sheep by grazing Brachiaria decumbens

A histologic and ultrastructural study of the alterations found in the lymph nodes and livers of nine sheep with experimental cholangiohepatopathy by grazing on Brachiaria decumbens has been performed. Sheep were euthanized in three groups, on the 77th, 89th, and 150th days of the experimental feeding. The main gross lesions were whitish spots of multifocal distribution scattered throughout the hepatic parenchyma from all B. decumbens-grazed animals and whitish foci surrounded by reddened halos in the mesenteric and hepatic lymph nodes of sheep necropsied on the 150th. The principal histologic findings included hepatocellular cloudy swelling, marked multifocal cholangitis in the portal triads with bile duct proliferation and infiltration of macrophages and lymphocytes. Crystals were observed within bile ducts and surrounded by macrophages. Ultrastructurally, there were criytaloid structures within the macrophages and hepatocytes, which also presented hyperplasia of smooth endoplasmic reticulum. These findings suggest that hepatocytes were the initial target of the toxic effects, which depending on the degree of severity developed would cause both, subsequent cholangiopathy or occasional photosensitization. Additionally, the developmental stages of the hepatic lesions observed in this study have been presented.

Cholestatic effect of large bilirubin loads and cholestasis protection conferred by cholic acid co-infusion: a molecular and ultrastructural study

BACKGROUND

Large intravenous bilirubin loads block biliary phospholipid secretion, produce canalicular membrane lesions and cause canalicular cholestasis. Cholic acid co-infusion forestalls these untoward effects. The aim of this study was first to determine whether bilirubin overload causes cholestasis through reducing the activity or the hepatic expression of the bile salt export pump (bsep) or Na-taurocholate co-transporting polypeptide (ntcp) and, secondly, whether cholic acid co-infusion forestalls cholestasis by upregulating bsep, ntcp or phosphoglycoprotein 3 (pgp3) expressions or activities. A further aim was to determine whether large bilirubin infusions also produce ultrastructural changes inside hepatocytes.

METHODS

The effects of intravenous infusion of 2 g bilirubin over 150 min on hepatic expression of bsep, ntcp and pgp3 were studied in bile acid-depleted and cholic acid co-infused pigs, and related to canalicular bile acid transport and bile secretion. Effects on hepatocyte ultrastructural morphology were analysed by electron microscopy.

RESULTS

Bilirubin-induced cholestasis reflected marked diminution of bsep and pgp3 transport activities and not reduced hepatic expression of these transporters. Hepatocyte ultrastructural abnormalities were predominantly confined to the hepatocyte canalicular membrane in cholestatic livers. Cholic acid co-infusion with bilirubin conferred complete cholestasis protection through enhancing pgp3 and bsep transporter activities and not through upregulating their expression. Bilirubin infusion did not change ntcp expression.

CONCLUSION

Bilirubin-induced cholestasis is due to markedly impaired activity of the membrane-embedded bsep transporter consequent upon ultrastructural injury to the canalicular membrane. Cholic acid co-infusion with bilirubin enhances bsep and pgp3 activities and confers protection against canalicular membrane injury and bilirubin-induced cholestasis.

Bile canalicular barrier function and expression of tight-junctional molecules in rat hepatocytes during common bile duct ligation

Tight junctions of hepatocytes form the intercellular barrier between the blood circulation and bile flow. We focused on early stages of common bile duct ligation to observe changes in tight junctions without the irreversible changes seen after lengthy ligation. Common bile ducts of 12-week-old male rats were ligated for 6 h because, at this time point, no histological changes were observed. Serum bilirubin and bile acid levels began to increase 3 h after ligation and were restored to the control level immediately after surgical removal of the ligation. To examine the barrier of hapatocytes, horseradish peroxidase was injected via the femoral vein, and bile was collected for the first 10 min. A four-fold elevation of the secretion and concentration was observed in the bile of ligated rats compared with that of control animals. We next examined lanthanum permeability by perfusion fixation of the liver. At 6 h after ligation, both dilation of the bile canaliculi and partial loss of microvilli were commonly observed. There were dense deposits of lanthanum in almost all bile canaliculi of ligated rats. In control animals, neither dilation of the bile canaliculi nor loss of microvilli was detected, and only 44% of bile canaliculi exhibited deposits. An apparent increase of occludin mRNA expression was detected in livers after 6 h ligation, whereas the expression of claudin-1, -2, and -3 was not influenced by ligation. These results indicate that regulation of occludin gene expression is different from that of claudin-1, -2, and -3. The early phase of bile stasis employed in this study is thought to be an indispensable approach for understanding the precise regulation of tight junctions.

Biliary tract of the rat as observed by scanning electron microscopy of cast samples

The three-dimensional distribution of the biliary tract in the rat was studied by scanning electron microscopy of biliary casts. The casts were prepared by a retrograde infusion of a low viscosity or monomeric methacrylate resin mixture into the common bile duct. No resin flow from the bile canaliculi to sinusoidal capillaries was ever noted. Bile canaliculi formed intricate meshworks and drained via the Hering's canals into the bile ductules. The bile canalicular meshworks of adjacent lobules intercommunicated with each other. The bile ductules formed a marked periportal plexus around the portal vein branch, and drained into the intrahepatic bile duct running along the portal vein branch. The junctional zone of the Hering's canal and bile ductule usually showed an ampullary dilation. When the Hering's canal directly drained into a thick bile ductule or into a periportal plexus of bile ductules, such an ampullary dilation at the origin of the bile ductule was never replicated. The extrahepatic bile duct protruded many crypt-like projections which presumably corresponded to parietal glands. It is suggested that the periportal plexus of bile ductules may store the bile as a substitute for the gallbladder.

Ultrastructure of intrahepatic biliary canaliculi and prognosis of congenital biliary atresia

OBJECTIVE

To investigate the relationship between the ultrastructure of intrahepatic biliary canaliculi and the prognosis of congenital biliary atresia.

METHODS

Liver biopsies from 25 patients who were operated on for congenital biliary atresia were examined under the transmission electron microscope. The relationship between the number of well-developed bile canaliculi and patient prognosis was studied.

RESULTS

The survival rate for 13 patients with well-developed intrahepatic biliary canaliculi and 12 patients with poorly-developed intrahepatic biliary canaliculi were 92.3% (12/13) and 33.3% (4/12) respectively. The difference between two groups was statistically significant (P < 0.05).

CONCLUSIONS

Intrahepatic biliary canaliculi ultrastructure could be used as one of the prognostic factors in congenital biliary atresia.

Combined hepatocellular and cholangiocellular carcinoma in a dog

A transitional type of combined hepatocellular and cholangiocellular carcinoma developed in a 12-year-old male Yorkshire terrier dog. The tumor was histologically composed of both hepatocellular carcinoma and cholangiocellular carcinoma components, and both elements were closely intermingled. Intraluminal mucin accumulation in cytokeratin-positive tubular/glandular structures was observed within the cholangiocellular carcinoma components and this feature was useful histological marker for a differential diagnosis between combined hepatocellular and cholangiocellular carcinoma and a pseudoglandular type of hepatocellular carcinoma. This primary hepatic tumor is extremely rare in dogs.

Isolation of functional polarized bile duct units from mouse liver

The development of genetically altered murine animals has generated a need for in vitro systems in the mouse. We have now characterized a novel isolated bile duct unit (IBDU) preparation from the mouse to facilitate such studies. The mouse IBDU is isolated by portal perfusion of collagenase, blunt dissection, further enzymatic digestions, filtering through sized mesh, and culturing on Matrigel for 16-72 h. This mouse IBDU forms a central, enclosed lumen lined by polarized cytokeratin-19-positive cholangiocytes with numerous microvilli on the apical membrane. The IBDU responds to secretory stimuli, including secretin, vasoactive intestinal peptide, IBMX, and forskolin, resulting in expansion of the central lumen from secretion as quantified by videomicroscopy. The secretory response to secretin is dependent on Cl- and HCO3-in the perfusate. These findings indicate that mouse IBDUs are intact, polarized, functional bile duct secretory units that permit quantitative measurements of fluid secretion from mouse bile duct epithelium for the first time. This method should facilitate studies of cholangiocyte secretion in genetically altered murine animal models.

Ultrastructural localisation and size distribution of collagen fibrils in Glisson's sheath of rat liver: implications for mechanical environment and possible producing cells

The ultrastructure and size distributions of collagen fibrils in Glisson's sheath were investigated in the rat liver to analyse the mechanical environment around the fibrils and their possible cells of origin. Glisson's sheath was found to contain 2 populations of collagen fibrils with different diameters and distinct localisations, namely fibroblast-associated and bile epithelium-associated. Fibroblast-associated collagen was composed of fibrils arranged in bundles and constituted the majority of the collagen in Glisson's sheath. Bile epithelium-associated collagen was represented by small dispersed groups of fibrils just beneath the basement membrane of the bile duct. The basement membrane of the bile duct was frequently reduplicated into a few or as many as 10 layers of laminae densae, with scattered collagen fibrils between these laminae. The diameters of the fibrils of both groups of collagen increased in relation to the calibre of the bile duct, whereas at any given place in Glisson's sheath bile epithelium-associated collagen fibrils had a smaller diameter compared with those of the fibroblast-associated fibrils. The increment in fibril diameter along the bile duct is considered to be correlated with the increase in mechanical stress acting on Glisson's sheath. The difference in diameter between the 2 populations as well as the incorporation of fibrils between the laminae densae of the basement membrane of the bile duct supports the view that the bile epithelium-associated collagen is produced by the epithelial cells of the bile duct, thus having a different origin from that of fibroblast-associated collagen. These findings provide the first evidence that the epithelial cells of the interlobular bile duct produce fibril-forming collagen. Furthermore, it is suggested that cholestasis stimulates the epithelial cells of interlobular bile duct to increased synthesis of fibril-forming collagen that is also produced by these cells under physiological conditions.

Centrosome abnormalities in human carcinomas of the gallbladder and intrahepatic and extrahepatic bile ducts

During mitosis, 2 centrosomes ensure accurate assembly of bipolar spindles and fidelity of the chromosomal segregation. The presence of more than 2 copies of centrosomes during mitosis can result in the formation of multipolar spindles, unbalanced chromosome segregation, and aneuploidy. Recent studies have provided evidence that centrosome hyperamplification plays a pivotal role in carcinogenesis. Using immunofluorescence analysis with gamma-tubulin and pericentrin antibodies, paraffin-embedded sections from 40 malignant biliary diseases including gallbladder cancers (GC; n = 13), intrahepatic cholangiocellular carcinoma (CCC; n = 19), and extrahepatic bile duct cancers (BDC; n = 8) were examined. Thirty-seven benign biliary diseases including chronic cholecystitis, gallbladder adenoma, hepatolithiasis, and choledochal cyst were included as benign controls. The frequencies of the centrosome abnormalities were 70% for GC, 58% for CCC, and 50% for BDC, respectively. The frequencies of centrosome abnormalities in malignant biliary diseases were significantly higher than in their benign counterparts (GC, CCC, BDC; P =.001,.002, and.001, respectively). The results of current study also indicated that biliary malignancy in the advanced stage (III-IV) displayed a higher frequency of centrosome abnormalities than in the early stage (I-II) (P <.001). We conclude that abnormalities in size, number, and shape of the centrosome are frequently observed in biliary tract malignancy. Centrosome abnormalities started to occur in the early stage of biliary malignancy and became very frequent in the advanced stage. This implies that centrosome abnormality might relate to the transition from early to advanced malignancy in biliary malignancy.

Selective and organotypic culture of intrahepatic bile duct cells from adult pig liver

Secondary culture of nontransformed bile duct epithelium has been difficult to achieve. STO feeder cell-dependent secondary cultures of adult pig bile duct cells were established from primary cultures of adult pig liver cells. Adult pig hepatocytes exhibited limited or no replication and were lost from the secondary culture at Passage 3 or 4. In contrast, adult pig bile duct cells replicated and were carried for 4-8 passages in secondary culture. A simple method to produce nearly pure pig intrahepatic bile duct cultures was first to freeze a relatively crude liver cell preparation. Upon subsequent thawing, all hepatocytes and most macrophages were lysed. Bile duct cells composed 95% of the surviving cells after the freeze/thaw, and they grew out rapidly. The bile duct cells grew on top of the STO feeder cells as closely knit epithelial, colonial outgrowths. Histocytochemical and biochemical analyses demonstrated high levels of gamma-glutamyltranspeptidase activity and low levels of P450 activity in the bile duct cultures. The bile duct cells spontaneously adopted a multicellular ductal morphology after 7-10 d in static culture which was similar to that found in in vivo pig liver. Transmission electron microscopic examination revealed complex junctions and desmosomes typical of epithelium, and lumenally projecting cilia typical of in vivo intrahepatic bile ductules. This simple method for the coculture of pig intrahepatic bile duct cells which adopt in vivo-like structure may facilitate biological studies of this important, but difficult to culture, cell type.

Beta-carotene reduces the ductular (oval) cell reaction in the liver of Wistar rats submitted to the resistant hepatocyte model of carcinogenesis

The morphology of livers of Wistar rats treated with beta-carotene (BC), vitamin A (VA, retinol acetate) or corn oil (CO, controls) and submitted to the resistant hepatocyte model of carcinogenesis was studied. Preneoplastic lesions (PNL) were smaller and less numerous in the BC group. The latter group also presented fewer placental glutathione-S-transferase (GST-P) positive and hematoxylin and eosin (H&E) distinguishable PNL, with smaller mean areas and smaller mean areas of the liver occupied by PNL. Clear cell foci predominated in BC livers. In picrosirius-stained liver sections, fibrosis, whether or not accompanying the bile ductular cells, surrounded only 16.67% of PNL in the BC group, as compared to 35.71% in the VA group and 87.72% in the CO group. Moreover, the ductular cell reaction was smaller in the BC group. Smooth muscle actin-positive cells surrounded some PNL, mostly in CO rats, and less frequently in the VA and BC groups. Examination by transmission electron microscopy (TEM) showed that cells with nuclei similar to those of perisinusoidal cells, devoid of cytoplasmic fat globules, probably represented myofibroblasts derived from Ito cells and accompanied the ductular cell reaction. On the basis of these results, we suggest that BC reduced not only the PNL but also the ductular (oval) cell reaction in this experimental model.

Ultrastructural morphology of Enterocytozoon bieneusi in biliary epithelium of rhesus macaques (Macaca mulatta)

Enterocytozoon bieneusi is the most common microsporidian parasite found in humans with acquired immunodeficiency syndrome. A nearly identical organism was recently recognized in rhesus macaques (Macaca mulatta). Ultrastructural examination of this microsporidian parasite in biliary epithelium of rhesus macaques reveals characteristics unique to E. bieneusi, including 1) a lack of sporophorus vesicles or pansporoblastic membranes, 2) direct contact of all stages with the host-cell cytoplasm, 3) elongated nuclei present within proliferative and sporogonial stages, 4) late thickening of the sporogonial plasmodium plasmalemma, 5) electron-lucent inclusions present throughout the life cycle, 6) precocious development of electron dense discs before plasmodial division to sporoblasts, and 7) the presence of polar tube doublets within spores and sporoblasts visualized as 5-7 coils in section.

Bile acid load on the DNA distribution pattern of bile ductules and cholangiocarcinoma induced by diisopropanolnitrosamine in hamsters

This study evaluated the influence of bile acid load on the DNA distribution pattern of proliferated bile ductules and cholangiocarcinoma induced by diisopropanolnitrosamine. Ninety hamsters were separated into control, tauro- and deoxycholic acid (DCA) groups. The DNA distribution pattern of intrahepatic lesions at 15-25 weeks was measured by cytofluorometry and classified into three types: I (-A, -B), II and III, according to the degree of dispersion on the DNA histogram. Regarding proliferated bile ductule lesions, all groups showed an increase in cell populations, indicating the dispersion of nuclear DNA content from the 4C to 6C ranges over the course of 25 weeks, and two groups with bile acids, especially the DCA group, revealed significant high incidences of lesions with type I-B plus II compared with those in the control group (p < 0.05, 0.01). Changes in carcinoma types were similar to those of bile ductule lesions, and the tumors in the DCA group had a significant high frequency of type II plus III (p < 0.05). In addition, heterogeneity of the DNA distribution pattern was observed within individual lesions of not only carcinoma but also bile ductules. These results suggest that bile acid load, especially DCA, promotes an increase in nuclear DNA content or DNA polyploidization and enhances the distribution of the DNA pattern of proliferating bile ductules and carcinoma. Furthermore, a bile ductule-carcinoma sequence may be present in the development of cholangiocarcinoma.

Endocytosis in rat intrahepatic bile duct epithelial cells of horseradish peroxidase injected into the common bile duct or the portal vein

While recent data in intrahepatic bile duct epithelial cells (IBDECs) isolated from normal rat liver have established their ability to undergo endocytosis, few studies have assessed endocytosis in IBDECs in situ. Thus, to clarify the activity of IBDECs in situ on macro-molecules in bile and blood, we injected horseradish peroxidase (HRP) into either the common bile duct or the portal vein, and determined its intracellular distribution by electron microscopic cytochemistry. Successful retrograde injection into the common bile duct was achieved by resection of the liver surface so as to avoid HRP leakage from the bile duct on injection. IBDECs internalized HRP through both the apical and basolateral plasma membranes. By quantitative analysis, counting the number of HRP-positive vesicles in the cells, apical endocytosis was found more active than basolateral. HRP internalized through the apical membrane was either routed to the acid phosphatase-positive lysosomes for degradation or to extracellular space for transcytosis. HRP through the basolateral membrane was transferred to the organelles having lipid inclusion, which were expected to be lysosomes negative for acid phosphatase. Our results suggest that IBDECs in situ are actively engaged in endocytosis for degradation of macromolecules in bile and blood, and possibly engaged in the excretion of macromolecules into extracellular space.

A morphometric study of the epithelium lining the rat intrahepatic biliary tree

BACKGROUND/AIMS

Morphological and functional heterogeneity of intrahepatic bile duct epithelial cells has been suggested in situ and in isolated cholangiocytes. The aim of this study was to evaluate if: (a) bile ducts, when isolated, maintain morphometric parameters similar to ducts in situ, (b) cellular organelles show heterogeneity in ducts of different size, and (c) some features permit different classes of bile ducts to be distinguished.

METHODS

Studies in situ were conducted on normal liver processed for light or electron microscopy. Data were also obtained from preparations of intrahepatic biliary tree isolated from rat liver. The whole biliary tree was cut at different levels to obtain bile ducts of different diameter. The diameter of ducts, the number of lining cells, the size and the area of individual cells, the nucleo/cytoplasmic ratio, the volume density of mitochondria, endoplasmic reticulum, Golgi complex and lysosomes have been evaluated.

RESULTS

The diameter of intrahepatic bile ducts ranged from 5 to 100 micrograms and the area of lining cells ranged from 8 to 100 micrograms2. A highly significant linear relationship existed between duct diameter and bile duct epithelial cell area (r = 0.97, p < 0.001) or number of lining cells (r = 0.96, p < 0.001). The volume density of mitochondria ranged from 7.58 +/- 2.0% of cytoplasmic volume in the smallest isolated bile ducts to 8.50 +/- 2.7% in the largest (p = NS). The volume density of lysosomes was low and was not significantly different in ducts of different size. Rough endoplasmic reticulum was inconspicuous in the smallest ducts and increased only slightly in the largest. The inverse relationship between the nucleo/cytoplasmic ratio and duct diameter was striking (r = -0.78, p < 0.001). All morphometric data were equivalent if bile ducts were evaluated in situ or in isolated fragments. Taken together, the data allowed bile ducts to be classified into 3 classes: < 10, 10-50, and > 50 micrograms in diameter.

DISCUSSION

Our data show that (a) isolated bile ducts maintain morphometric characteristics similar to the tissue in situ, (b) a low grade of morphological heterogeneity is evident for intracellular organelles in ducts of different diameter and (c) the diameter of ducts, the number of lining cells and especially the nucleo/cytoplasmic ratio may indicate the origin of fragments examined where functional studies are being considered.

Histological changes of the liver in experimental graft-versus-host disease across minor histocompatibility barriers. VIII. Role of eosinophil infiltration

Although eosinophil infiltrate has been recognized in hepatic graft-versus-host disease, its significance in relation to hepatic graft-versus-host disease lesions is unknown. In the present study, we analyzed hepatic eosinophil infiltration in relation to bile duct damage in experimental mouse graft-versus-host disease across minor histocompatibility barriers up to 14 months after transplantation. Portal eosinophil infiltration was found from 1 week after transplantation throughout the entire 14-month observation period. It was most striking during the early chronic stage of hepatic graft-versus-host disease between 2 to 7 months, with a peak at 5 months after transplantation. Microscopic and electron microscopic study revealed eosinophils infiltrated around the bile duct as well as in the bile duct epithelial layer. They were commonly found together with lymphocytes but were also occasionally found singly around the bile duct and in the bile duct epithelial layer. Bile duct epithelial cells in contact with and in the vicinity of eosinophils showed a variety of generative changes, occasionally associated with the presence of extracellular eosinophil granules. Bile duct epithelial cells with eosinophil infiltration just beneath the basement membrane frequently showed further characteristic severe degenerative changes with shedding or dropping-off into the lumen, which features were quite similar to those seen in the bronchial epithelium in asthma patients. These results indicate that not only lymphocytes but also eosinophils may be involved in the production of the bile duct injury in hepatic graft-versus-host disease, especially in its early chronic stage.