Electron microscopic observation of destruction of biliary epithelium in primary biliary cirrhosis

ABSTRACT— Electron microscopic studies of the intrahepatic biliary tree in 16 patients with primary biliary cirrhosis (PBC) disclosed four types of biliary epithelial injury suggesting cell death in the ducts: 1) coagulative and 2) lytic necrosis without detachment of affected cells from the biliary epithelial layer, and 3) apoptosis and 4) detachment of several adjoining biliary cells from the basement membrane and neighboring biliary cells. Lesions 1), 2) and 3) were also found in livers with extrahepatic cholestasis without bile duct loss, and 1) and 2) were found in PBC livers irrespective of the degree of bile duct loss. 3) was rare and mostly confined to bile ductules, when present. By contrast, 4) was only observed in PBC, especially in livers with a moderate degree of bile duct loss in which extensive bile duct destruction appeared to be progressing. Detached biliary cells in lesion 4) were occasionally in contact with and/or surrounded by migrating lymphocytes with pseudopod formation, suggesting lymphocyte-target cell interactions. It therefore seems possible that epithelial detachment is an important ultrastructural lesion associated with extensive bile duct destruction in PBC livers.     

Peptide antibiotic human beta-defensin-1 and -2 contribute to antimicrobial defense of the intrahepatic biliary tree

Human beta-defensins (hBDs) are important antimicrobial peptides that contribute to innate immunity at mucosal surfaces. This study was undertaken to investigate the expression of hBD-1 and hBD-2 in intrahepatic biliary epithelial cells in specimens of human liver, and 4 cultured cell lines (2 consisting of biliary epithelial cells and 2 cholangiocarcinoma cells). In addition, hBD-1 and hBD-2 were assayed in specimens of bile. hBD-1 was nonspecifically expressed immunohistochemically in intrahepatic biliary epithelium and hepatocytes in all patients studied, but expression of hBD-2 was restricted to large intrahepatic bile ducts in 8 of 10 patients with extrahepatic biliary obstruction (EBO), 7 of 11 with hepatolithiasis, 1 of 6 with primary biliary cirrhosis (PBC), 1 of 5 with primary sclerosing cholangitis (PSC), 0 of 6 with chronic hepatitis C (CH-C), and 0 of 11 with normal hepatic histology. hBD-2 expression was evident in bile ducts exhibiting active inflammation. Serum C reactive protein levels correlated with biliary epithelial expression of hBD-2. Real-time PCR revealed that in all of 28 specimens of fresh liver, including specimens from patients with hepatolithiasis, PBC, PSC, CH-C and normal hepatic histology, hBD-1 messenger RNA was consistently expressed, whereas hBD-2 messenger RNA was selectively expressed in biliary epithelium of patients with hepatolithiasis. Immunobloting analysis revealed hBD-2 protein in bile in 1 of 3 patients with PSC, 1 of 3 with PBC, and each of 6 with hepatolithiasis; in contrast, hBD-1 was detectable in all bile samples examined. Four cultured biliary epithelial cell lines consistently expressed hBD-1; in contrast these cell lines did not express hBD-2 spontaneously but were induced to express hBD-2 by treatment with Eschericia coli, lipopolysaccharide, interleukin-1beta or tumor necrosis factor-alpha. In conclusion, these findings suggest that in the intrahepatic biliary tree, hBD-2 is expressed in response to local infection and/or active inflammation, whereas hBD-1 may constitute a preexisting component of the biliary antimicrobial defense system.     

Frequent expression of MUC1 apomucin on biliary epithelial cells of damaged small bile ducts in primary biliary cirrhosis and chronic viral hepatitis: An immunohistochemical study

MUC1 apomucin is a specific target tumor antigen recognized by cytotoxic T cells in a major histocompatibility complex (MHC) unrestricted fashion in patients with pancreatic and breast cancer. This T-cell-mediated immune mechanism against MUC1 apomucin expressing cells has not been evaluated in nonneoplastic immune-mediated diseases. Therefore, we immunohistochemically surveyed the expression of MUC1 apomucin on biliary epithelial cells of small bile ducts in various hepatobiliary diseases, including primary biliary cirrhosis (PBC). MUC1 apomucin was detected using the monoclonal antibody DF3 and the streptavidin-biotin complex, in livers from 31 patients with PBC, 67 with chronic viral hepatitis (CH) with or without cirrhosis, 31 with extrahepatic biliary obstruction (EBO), 30 with hepatolithiasis, and from 23 normal individuals. MUC1 apomucin was infrequently and focally expressed in the biliary epithelial cells of the small bile ducts in 3 of 23 normal livers. In contrast, MUC1 apomucin was frequently and strongly expressed on the luminal surface of biliary epithelia] cells of small bile duct, in 22 of 31 patients with PBC, and in 50 of 67 patients with CH. In particular, high levels of MUC1 apomucin were expressed in bile ducts showing chronic nonsuppurative destructive cholangitis (CNSDC) in PBC and hepatitic duct injuries in CH. In EBO and hepatolithiasis, MUC1 apomucin was focally and weakly expressed in 29% and 30% of livers examined, respectively. More MUC1 apomucin was expressed in PBC and CH than in EBO, hepatolithiasis, and normal liver (P < .01, respectively). Frequent and high luminal expression of MUC1 apomucin on biliary epithelial cells in damaged small bile ducts in PBC and CH may be related to T-cell-mediated immunologic mechanisms in these diseases, probably by an MHC-unrestricted recognition process. (Hepatology 1996 Jun;23(6):1313-7)     

Expression of deleted in malignant brain tumor-1 (DMBT1) molecule in biliary epithelium is augmented in hepatolithiasis: possible participation in lithogenesis

Deleted in malignant brain tumor-1 (DMBT1) is a mucin-like molecule participating in mucosal immune defense. Given that bovine gallbladder mucin, which accelerates cholesterol crystallization, is a DMBT1 homolog, DMBT1 expression was examined immunohistochemically in biliary epithelial cells in livers with hepatolithiasis (N = 25), primary sclerosing cholangitis (N = 7), large bile duct obstruction (N = 12), and control normal livers (N = 10). DMBT1 protein was determined in the hepatic bile samples of hepatolithiasis (N = 12) and other hepatobiliary diseases (N = 8) by immunoblot. While DMBT1 was faintly expressed in normal livers (20%), it was significantly augmented in hepatolithiasis (76%) (P < 0.05). DMBT1 was mildly expressed in primary sclerosing cholangitis and large bile duct obstruction. DMBT1 protein was detected frequently in hepatic bile samples of hepatolithiasis (50%) (P < 0.05), but in the other bile samples. The percentage of cholesterol in intrahepatic calculi was significantly higher in the patients with DMBT1- positive bile. Augmented expression and secretion of DMBT1 in intrahepatic large bile ducts in hepatolithiasis suggests its role in lithogenesis.     

Protein expression of double‐stranded RNA‐activated protein kinase (PKR) in intrahepatic bile ducts in normal adult livers,fetal livers,primary biliary cirrhosis,hepatolithiasis and intrahepatic cholangiocarcinoma

Abstract: Background/Aim: The protein expression of double‐stranded RNA‐activated protein kinase (PKR) in intrahepatic bile ducts has not been investigated. Methods: Immunohistochemistry and a semiquantitative scoring method in normal liver and biliary diseases were used for the investigation. Results: In “normal” adult livers (n=10), intrahepatic bile ducts were negative for PKR. In normal fetal livers (n=25), primitive biliary epithelia were almost negative for PKR. In primary biliary cirrhosis (PBC) (n=30), damaged bile ducts were frequently positive for PKR, while uninvolved bile ducts were negative. In hepatolithiasis (n=27), proliferated bile ducts were positive for PKR, and the PKR score correlated with the degree of proliferation. In cholangiocarcinoma (CC) (n=44), PKR expression was frequently noted, and the PKR score correlated with good differentiation of CC, being highest in well‐differentiated CC and lowest in poorly‐differentiated CC. The PKR score decreased in the following order: CC (mean PKR score=3.96), hepatolithiasis (2.56), PBC (1.60), normal fetal liver (0.40), and normal adult livers (0.00). The PKR expression in hepatocytes was “baseline” in normal adult livers, while moderately increased in fetal livers, PBC, hepatolithiasis and CC. Conclusions: Although the significance of these data is unclear, they suggest (i) that PKR is absent in bile ducts in normal adult and fetal livers, (ii) that PKR in bile duct cells newly emerges or increases in PBC, hepatolithiasis, and CC, (iii) that PKR accumulates in damaged bile ducts in PBC, (iv) that PKR increases in parallel with biliary cell proliferation in hepatolithiasis, and (v) that PKR expression correlates with differentiation in CC. PKR expression in intrahepatic bile ducts seems to be associated with inflammation or cell proliferation of the bile duct cells.     

Protein expression of double-stranded RNA-activated protein kinase (PKR) in intrahepatic bile ducts in normal adult livers, fetal livers, primary biliary cirrhosis, hepatolithiasis and intrahepatic cholangiocarcinoma

BACKGROUND/AIM: The protein expression of double-stranded RNA-activated protein kinase (PKR) in intrahepatic bile ducts has not been investigated. METHODS: Immunohistochemistry and a semiquantitative scoring method in normal liver and biliary diseases were used for the investigation. RESULTS: In "normal" adult livers (n=10), intrahepatic bile ducts were negative for PKR. In normal fetal livers (n=25), primitive biliary epithelia were almost negative for PKR. In primary biliary cirrhosis (PBC) (n=30), damaged bile ducts were frequently positive for PKR, while uninvolved bile ducts were negative. In hepatolithiasis (n=27), proliferated bile ducts were positive for PKR, and the PKR score correlated with the degree of proliferation. In cholangiocarcinoma (CC) (n=44), PKR expression was frequently noted, and the PKR score correlated with good differentiation of CC, being highest in well-differentiated CC and lowest in poorly-differentiated CC. The PKR score decreased in the following order: CC (mean PKR score=3.96), hepatolithiasis (2.56), PBC (1.60), normal fetal liver (0.40), and normal adult livers (0.00). The PKR expression in hepatocytes was "baseline" in normal adult livers, while moderately increased in fetal livers, PBC, hepatolithiasis and CC. CONCLUSIONS: Although the significance of these data is unclear, they suggest (i) that PKR is absent in bile ducts in normal adult and fetal livers, (ii) that PKR in bile duct cells newly emerges or increases in PBC, hepatolithiasis, and CC, (iii) that PKR accumulates in damaged bile ducts in PBC, (iv) that PKR increases in parallel with biliary cell proliferation in hepatolithiasis, and (v) that PKR expression correlates with differentiation in CC. PKR expression in intrahepatic bile ducts seems to be associated with inflammation or cell proliferation of the bile duct cells.     

Lack of Concomitant Expression of ICAM-1 and HLA-DR on Bile Duct Cells from Patients with Primary Sclerosing Cholangitis and Primary Biliary Cirrhosis

In both primary biliary cirrhosis (PBC) and primary sclerosing cholangitis (PSC) prominent infiltrates of lymphocytes surround the bile ducts, on which an abberrant expression of major histocompatibility complex class II antigens has been found, suggesting that the immune system is involved in the biliary destruction. Since the lymphocytes presumably must adhere to the bile ducts to initiate a cell-to-cell-mediated destruction, we have studied the expression of the lymphocyte function-associated antigen-1 (LFA-1) together with its ligand, the intercellular adhesion molecule-1 (ICAM-1), and the expression of HLA-DR, using immunoperoxidase staining of cryostat sections from patients with PBC (n = 10), PSC (n = 13), and normal healthy controls (n = 6). Most lymphocytes expressed LFA-1. ICAM-1 expression was found on hepatocytes from 9 of 10 PBC and 10 of 13 PSC patients but was not seen on hepatocytes from the controls. Hepatocytes expressing HLA-DR were only found in one patient with PBC. None of the septal bile ducts expressed ICAM-1, and only one PSC patient and three PBC patients expressed ICAM-1 on their interlobular bile ducts. The bile ducts in 22 of 23 patients, however, expressed HLA-DR. Proliferating bile ductules from two PBC patients and three PSC patients showed a concomitant expression of ICAM-1 and HLA-DR. None of the bile ducts from the controls expressed ICAM-1 or HLA-DR. Thus, since most bile ducts involved in the disease process of both PBC and PSC lack expression of ICAM-1, other adhesion molecules must be involved if a cell-to-cell-mediated destruction accounts for the biliary destruction in these two disease states. Furthermore, the lack of concomitant expression of HLA-DR and ICAM-1 on the bile ducts in PBC and PSC indicates that other regulatory mechanisms exist in the biliary epithelium than in most other epithelial cells.     

Alterations in tight junctions differ between primary biliary cirrhosis and primary sclerosing cholangitis

Tight junctions (TJ) of biliary epithelial cells (BEC) and hepatocytes prevent bile regurgitation from the biliary tract. Alterations in these TJs may participate in chronic cholestatic liver diseases such as primary biliary cirrhosis (PBC) and primary sclerosing cholangitis (PSC). We examined the localization of 2 TJ proteins, ZO-1 and 7H6, in these diseases. Frozen sections from livers of PBC, PSC, extrahepatic cholestasis (Ex-C), and hepatitis C-associated cirrhosis (LC-C), as well as histologically normal livers, were processed for double-fluorescence immunohistochemistry. In controls and cirrhosis, 7H6 and ZO-1 colocalized surrounding the luminal space of the bile ducts and outlined the bile canalicular spaces between hepatocytes. In untreated PBC, immunostaining for ZO-1 in BEC of bile ducts 40 to 80 microm in diameter was preserved, but that for 7H6 was diminished to absent. In PBC treated with ursodeoxycholic acid (UDCA), immunostaining for 7H6 was well preserved. In PSC as well as in Ex-C, immunostaining for both 7H6 and ZO-1 was well preserved in bile ducts. In hepatocytes, ZO-1 showed preserved immunoreactivity, but immunostaining for 7H6 frequently disappeared. The percentage of bile ducts with immunostaining for 7H6 in all bile ducts with immunostaining for ZO-1 was significantly reduced in PBC compared with that in control, LC-C, Ex-C, and PSC (all P <.0001). Substantial alteration in the TJ protein occurs predominantly in bile ducts in PBC and in hepatocytes in PSC, suggesting increased paracellular permeability along different paracellular routes for bile regurgitation in these chronic cholestatic liver diseases.     

Are bile duct lesions of primary biliary cirrhosis distinguishable from those of autoimmune hepatitis and chronic viral hepatitis? Interobserver histological agreement on trimmed bile ducts

Background Primary biliary cirrhosis (PBC) is histopathologically characterized by chronic nonsuppurative destructive cholangitis and ductopenia of interlobular bile ducts. Bile duct injury is also often encountered in chronic viral hepatitis (CVH) and in autoimmune hepatitis (AIH).Methods In this study, we performed interobserver agreement analysis on 90 injured bile ducts from liver specimens of PBC (17 cases), CVH (26 cases), and AIH (18 cases), with 30 bile ducts chosen from each disease group. Digital images of bile ducts with minimal periductal elements were recorded in CD-ROM format and sent to 14 observers (six special hepatopathologists, four local hepatopathologists, and four general pathologists). We analyzed the following issues: (1) diagnostic accuracy of PBC, based only on bile duct lesions; (2) classification of bile duct lesions in AIH cases as destructive cholangitis equivalent to PBC-associated injury, or not.Results The diagnostic accuracy of PBC cases with severe bile duct injuries was very high (over 80%), although the accuracy in cases with only mild bile duct injuries was low (50% or less). For AIH, each observer classified 9 of the 30 bile ducts, on average, as destructive cholangitis.Conclusions This study revealed that 66.9% of PBC cases could be diagnosed based on trimmed bile ducts alone. Bile duct injury similar to that in PBC could be encountered in AIH.     

Differential expression of intestinal trefoil factor in biliary epithelial cells of primary biliary cirrhosis

Intestinal trefoil factor (ITF) promotes epithelial cell migration and mucosal restitution during inflammation. We used real-time quantitative PCR, in situ nucleic acid hybridization, and immunohistochemistry to study the expression of the ITF gene and protein expression in the liver of primary biliary cirrhosis (PBC) and controls. There were significantly higher levels of ITF messenger RNA (mRNA) in PBC liver compared with primary sclerosing cholangitis (PSC) (P <.05) or normal controls (P <.001) and also higher in hepatitis C virus (HCV) liver (P <.05) and cryptogenic cirrhosis (P <.01) compared with normal controls. However, only in PBC was there a significant difference between small (interlobular and bile ductules) and large (intrahepatic and septal) bile ducts. Using in situ hybridization, the highest levels of ITF gene expression were localized to the large bile ducts in PBC. This differential expression of ITF was also noted at the protein level. Thus, in PBC, although 92% of large bile ducts expressed the ITF protein, only 2% of small bile ducts (P <.0001) expressed ITF. In contrast, in control livers, 34% of large bile ducts and 13% of small bile ducts expressed ITF. ITF protein is absent in small bile ducts in all stages of PBC. In conclusion, the expression of ITF may play an important role in bile duct damage. In small bile ducts, ITF production in response to damage is absent, making such cells vulnerable to damage and providing a thesis for the selective loss of small, but not large, bile ducts in PBC.     

Cholestatic liver diseases: slow progress in understanding and treating slowly progressive disorders

BACKGROUND: Cholestatic liver diseases are characterized by failure of normal amounts of physiological bile to reach the gastrointestinal tract. Any interference with normal bile flow from the canalicular membrane of the hepatocyte to the distal common bile duct may result in cholestasis. METHODS: Literature review. RESULTS: In primary biliary cirrhosis (PBC), the small intrahepatic bile ducts are destructed, resulting in obstruction of intrahepatic bile flow, whereas extrahepatic and/or intrahepatic biliary strictures block the passage of bile towards the intestine in primary sclerosing cholangitis (PSC). In contrast, the biliary tree is morphologically unaffected in less common cholestatic liver diseases as benign recurrent intrahepatic cholestasis (BRIC) and progressive familiar intrahepatic cholestasis (PFIC1-4). Genetic defects in hepatic canalicular transport mechanisms and bile salt synthesis deficiencies seem to underlie these types of cholestatic disorders. CONCLUSION: Recent advances in understanding and treatment of cholestatic liver diseases may help in better diagnosing and treating the various conditions characterized by cholestasis.     

Ursodeoxycholic acid treatment of vanishing bile duct syndromes

Vanishing bile duct syndromes (VBDS) are characterized by progressive loss of small intrahepatic ducts caused by a variety of different diseases leading to chronic cholestasis, cirrhosis, and premature death from liver failure. The majority of adult patients with VBDS suffer from primary biliary cirrhosis (PBC) and primary sclerosing cholangitis (PSC). Ursodeoxycholic acid (UDCA), a hydrophilic dihydroxy bile acid, is the only drug currently approved for the treatment of patients with PBC, and anticholestatic effects have been reported for several other cholestatic syndromes. Several potential mechanisms of action of UDCA have been proposed including stimulation of hepatobiliary secretion, inhibition of apoptosis and protection of cholangiocytes against toxic effects of hydrophobic bile acids.     

Telomere shortening in the damaged small bile ducts in primary biliary cirrhosis reflects ongoing cellular senescence

Telomere shortening is a trigger of cellular senescence. Biliary epithelial cells in damaged small bile ducts in primary biliary cirrhosis (PBC) show senescent features such as the expression of senescence-associated beta-galactosidase and the increased expression of p16(INK4a) and p21(WAF1/Cip1). We investigated whether the telomere shortening is involved in the pathogenesis of biliary cellular senescence in PBC. We analyzed the telomere length of biliary epithelial cells using quantitative fluorescence in situ hybridization in livers taken from the patients with PBC (n = 13) and control livers (n = 13). We also assessed immunohistochemically the prevalence of DNA damage and the expression of p16(INK4a) and p21(WAF1/Cip1). The study showed a significant decrease in telomere length in biliary epithelial cells in the damaged small bile ducts and bile ductules in PBC compared with normal-looking bile ducts and bile ductules in PBC, chronic viral hepatitis, and normal livers (P < 0.01). gammaH2AX-DNA-damage-foci were detected in biliary epithelial cells in damaged small bile ducts and bile ductules in PBC but were absent in biliary epithelial cells in chronic viral hepatitis and normal livers. The expression of p16(INK4a) and p21(WAF1/Cip1) was increased corresponding to telomere shortening and gammaH2AX-DNA-damage-foci in the damaged small bile ducts in PBC. CONCLUSION: Telomere shortening and an accumulation of DNA damage coincide with increased expression of p16(INK4a) and p21(WAF1/Cip1) in the damaged bile ducts, characterize biliary cellular senescence, and may play a role in the following progressive bile duct loss in PBC.     

原发性胆汁性肝硬化免疫分子机制研究进展

原发性胆汁性肝硬化(primary biliary cirrhosis,PBC)是一种免疫介导损伤胆管上皮细胞及肝内小胆管的胆汁淤积性自身免疫性肝病,具有发展为肝硬化的倾向.多种免疫相关基因通过影响疾病易感性、免疫调节等途径,促使PBC的发生、发展.本文就PBC的免疫分子机制研究动态进行综述.     

The biliary system in primary biliary cirrhosis. A study by endoscopic retrograde cholangiopancreatography.

Endoscopic retrograde cholangiograms from 23 patients with primary biliary cirrhosis (PBC), 10 controls with either normal livers or hepatocellular disease, and 4 patients with sclerosing cholangitis, were compared. Of the PBC group, 39% had gallstones. The calibers of the common bile duct and left and right intrahepatic ducts were comparable in the PBC and control groups. The small intrahepatic ducts, while normal in the control group were abnormal in 7 of the 23 PBC patients. These small ducts were irregular in caliber and had a tortuous course. The changes were not related to the presence of gallstones or the duration of the disease, but all the patients had histologically proven cirrhosis. Two patients with cirrhosis had normal intrahepatic ducts. We conclude that whereas the major bile ducts are normal in PBC, there is a high incidence of gallstones (39%), and the changes that do occur in the intrahepatic ducts are probably related to the distorted hepatic architecture due to cirrhosis and may be used as a sign that cirrhosis has supervened.     

Characteristic differences according to the cirrhotic pattern of advanced primary biliary cirrhosis: Macronodular cirrhosis indicates slow progression.

It is important to evaluate advanced primary biliary cirrhosis (PBC) clinicopathologically to clarify its progressive mechanism. According to the cirrhotic pattern, 26 cases of explanted PBC were classified into non-cirrhotic (n=4), macronodular (n=4), mixed nodular (n=6), and micronodular cirrhosis (n=12), to compare their clinical and morphological features. In addition, the degree of preserved intrahepatic bile ducts and other histologic features were analyzed. Patients at living donor liver transplantation (LDLT) in the macronodular cirrhosis were significantly older than those in the micronodular cirrhosis. The mean duration between clinical presentation and LDLT in the macronodular cirrhosis was significantly longer than in the micronodular cirrhosis. The non-cirrhotic group showed a short duration between clinical presentation and LDLT. The ratio of explanted liver volume to standard liver volume (ELV/SLV) indicates that macronodular cirrhosis revealed more atrophic change than that in the other three types. The density of remnant intrahepatic bile ducts of less than 50mum per group in cases of macronodular cirrhosis was significantly higher than that in cases of micronodular cirrhosis. Therefore, different cirrhotic patterns of advanced PBC were correlated with the disease progression and the degree of bile duct disappearance. The macronodular cirrhotic patients were older, had a longer disease course, yet had less bile duct loss. We suggest that macronodular cirrhosis and micronodular cirrhosis of PBC are different type of PBC.     

Apoptosis of biliary epithelial cells in primary biliary cirrhosis and primary sclerosing cholangitis

BACKGROUND/AIMS: Primary biliary cirrhosis (PBC) is an autoimmune disease characterized by inflammatory destruction of small bile ducts. Primary sclerosing cholangitis (PSC) is a different, presumed autoimmune cholestatic liver disease where the bile ducts are also destroyed. In this study, apoptosis and portal triad inflammation in liver tissue from patients with PBC is examined and compared to that from patients with PSC and patients with normal liver. METHODS: Explanted liver tissue from patients with PBC and PSC and normal liver from patients with metastases to liver were examined. The liver samples were stained for apoptosis using the terminal deoxynucleotidyl triphosphate (TdT)-mediated deoxyuridine triphosphate nick end labelling (TUNEL) assay. The biliary epithelial cells (BEC) were then scored on the basis of their TUNEL stain and the degree of periductal inflammation. RESULTS: In PBC, apoptosis of BEC, as detected by the TUNEL assay, was significantly increased in the presence of inflammation. Regardless of the presence or absence of inflammation, the small bile ducts in PBC liver tissue exhibited greater evidence of apoptosis than did similar ducts from PSC or control livers. CONCLUSION: These findings suggest that in PBC, unlike PSC, the apoptosis of BEC in PBC is secondary to the invasion of inflammatory cells.     

Cell-kinetic study of proliferating bile ductules in various hepatobiliary diseases

ABSTRACT— Aims and Methods: Proliferat bile ductules are classifiable histologically into typical and atypical types. To clarify their histogenesis and regulation, we examined their phenotype, proliferating and degrading characteristics, using liver sections from 58 patients with various hepatobiliary diseases. Results: Typical ductules were found in all cases. Atypical ductules were also frequently found in extrahepatic biliary obstruction (EBO), chronic hepatitis (CH), as well as in primary biliary cirrhosis (PBC) and primary sclerosing cholangitis (PSC). Typical ductules completely expressed biliary-type cytokeratins, while atypical ductules lacked complete biliary-type cytokeratins and often connected with periportal hepatocytes. Proliferative indices of typical ductules in diseased livers were higher than those in normal livers, while those of atypical ductules were low in PBC and PSC and high in EBO and CH. Apoptosis was detected in typical and atypical ductules. Perforin was preferably expressed on typical and atypical ductules, compared with CD95. Conclusions: These findings suggest that typical ductules reflect active proliferation of preexisting ductules. Atypical ductules might be classifiable into two categories: those in PBC and PSC primarily reflect ductular transformation (metaplasia) of periportal hepatocytes, while those in EBO and CH reflect active proliferation and transformation of hepatocytes. Apoptosis via perforin/granzyme B pathway may be involved in the maintenance of homeostasis in ductular proliferation as degrading fraction.     

Immunohistochemical study on phenotypical changes of hepatocytes in liver disease with reference to extracellular matrix composition

Abstract: Aims/Background: Extracellular matrix (ECM) may affect the function and phenotype of hepatocytes. Phenotypic changes of hepatocytes in diseased liver were investigated with reference to ECM composition. Methods: Immunohistochemistry was performed on biopsied liver samples from chronic viral hepatitis (CVH), primary biliary cirrhosis (PBC), primary sclerosing cholangitis (PSC) and normal patients, using monoclonal antibodies for laminin, type IV collagen, cytokeratin 19 (CK19) and epithelial glycoprotein (EGP), a protein homologous to nidogen. Results: In normal controls, both EGP and CK 19 were expressed exclusively on biliary epithelia. Laminin and type IV collagen were expressed around portal bile ducts and blood vessels. Although type IV collagen was expressed in Disse's space, laminin was scarcely expressed. In all pathological livers, both EGP and CK 19 were expressed in proliferated bile ductules. In CVH with piecemeal necrosis, EGP was expressed on periportal hepatocytes, while CK19 expression was limited to a few hepatocytes. Laminin was expressed in Disse's space of periportal sinusoids, where EGP was expressed on hepatocytes. EGP expression on hepatocytes and laminin deposition in Disse's space were rare in PBC and PSC liver. Conclusion: These results suggest that hepatocytes transform into a phenotype similar to biliary epithelia and, laminin deposition in Disse's space (capillarization of sinusoids) may play a role in this phenotypic change.     

Differential expressions of aquaporin proteins in human cholestatic liver diseases.

Aquaporins (AQPs) are the channel forming membranous proteins involved in the biliary physiological homeostasis. Recently, we have reported the heterogeneous expression of AQPs in intrahepatic biliary epithelial cells or cholangiocytes in mice. However, the involvements of AQPs in hepatobiliary disorder are still unclear. Thus, we hypothesized that the AQP protein expressions are altered in human cholestatic disorders. METHODS: The AQP expressions of the immortalized human cholangiocytes cell line (H69) were assessed by immunoblotting. The expression of AQPs in liver biopsy specimens from various human cholestatic diseases as well as viral hepatitis were evaluated immunohistochemically. The degrees of staining were classified into four grades by comparison with staining intensity from controls. RESULTS: AQP1 expression, predominantly membranous, was confirmed by immunoblotting analysis. However, the other subtypes of AQP expression were not detected. In human pathological tissues, AQP1 expression by interlobular bile ducts was similar to normal and viral hepatitis, although this expression was attenuated according to bile duct injuries in PBC. On the contrary, the AQP1 expression by proliferating bile ductile (equivalent for small cholangiocytes) was enhanced. In intrahepatic cholestasis, AQP1 expressions were diminished, which was further associated with the aberrant expressions by periportal hepatocytes. CONCLUSIONS: AQP1 was expressed intensely in smaller proliferating bile ducts in human cholestatic liver disease. Also, the AQP1 expression was decreased in injured duct cells undergoing degeneration in PBC. The AQP1 expression was decreased in intrahepatic cholestasis probably due to negative feed back of the decreased bile flow. The role of AQP expression profiles may help the understanding of the pathogenesis of human cholestatic liver diseases.