Random phage mimotopes recognized by monoclonal antibodies against the pyruvate dehydrogenase complex-E2 (PDC-E2).

Dihydrolipoamide acetyltransferase, the E2 component of the pyruvate dehydrogenase complex (PDC-E2), is the autoantigen most commonly recognized by autoantibodies in primary biliary cirrhosis (PBC). We identified a peptide mimotope(s) of PDC-E2 by screening a phage-epitope library expressing random dodecapeptides in the pIII coat protein of fd phage using C355.1, a murine monoclonal antibody (mAb) that recognizes a conformation-dependent epitope in the inner lipoyl domain of PDC-E2 and uniquely stains the apical region of bile duct epithelium (BDE) only in patients with PBC. Eight different sequences were identified in 36 phage clones. WMSYPDRTLRTS was present in 29 clones; WESYPFRVGTSL, APKTYVSVSGMV, LTYVSLQGRQGH, LDYVPLKHRHRH, AALWGVKVRHVS, KVLNRIMAGVRH and GNVALVSSRVNA were singly represented. Three common amino acid motifs (W-SYP, TYVS, and VRH) were shared among all peptide sequences. Competitive inhibition of the immunohistochemical staining of PBC BDE was performed by incubating the peptides WMSYPDRTLRTS, WESYPDRTLRTS, APKTYVSVSGMV, and AALWGVKVRHVS with either C355.1 or a second PDC-E2-specific mAb, C150.1. Both mAbs were originally generated to PDC-E2 but map to distinct regions of PDC-E2. Two of the peptides, although selected by reaction with C355.1, strongly inhibited the staining of BDE by C150.1, whereas the peptide APKTYVSVSGMV consistently inhibited the staining of C355.1 on biliary duct epithelium more strongly than the typical mitochondrial staining of hepatocytes. Rabbit sera raised against the peptide WMSYPDRTLRTS stained BDE of livers and isolated bile duct epithelial cells of PBC patients more intensively than controls. The rabbit sera stained all size ducts in normals, but only small/medium-sized ductules in PBC livers. These studies provide evidence that the antigen present in BDE is a molecular mimic of PDC-E2, and not PDC-E2 itself.     

In situ nucleic acid detection of PDC-E2, BCOADC-E2, OGDC-E2, PDC-E1alpha, BCOADC-E1alpha, OGDC-E1, and the E3 binding protein (protein X) in primary biliary cirrhosis.

The characteristic serological feature of primary biliary cirrhosis (PBC) is the presence of antimitochondrial antibodies (AMAs), and the major proteins recognized by AMAs are subunits of the 2-oxo acid dehydrogenase complexes (2-OADC), including the E2 components of the pyruvate dehydrogenase complex (PDC), the 2-oxo-glutarate dehydrogenase complex (OGDC), the branched-chain 2-oxoacid dehydrogenase complex (BCOADC), the E3 binding protein (E3BP or protein X) and the E1a component of mammalian PDC. Previous work has postulated that either E3BP, or a molecule cross-reactive with the PDC-E2 molecule, is uniquely expressed on the surface of biliary epithelial cells in PBC. To address this issue, we performed in situ hybridization for all of the major 2-OADC components at the mRNA level, including PDC-E2, BCOADC-E2, OGDC-E2, PDC-E1a, BCOADC-E1a, OGDC-E1, and E3BP using 13 PBC and 9 control livers using 7 mitochondrial antisense probes. In both PBC and controls, the expression of all 2-OADC component mRNA studied herein were found in hepatocytes and infiltrating mononuclear cells, without significant differences. Interestingly, however, despite published data on immunohistochemical staining, interlobular bile ducts including the injured bile ducts in PBC were generally negative or only faintly positive, with the exception of 1 bile duct in 1 of 13 cases of PBC and 1 of 9 control liver specimens. Moreover, confocal microscopic examination and image analysis revealed that the mRNA signal intensity of each of the 2-OADC components in the bile ducts of PBC was relatively lower in comparison with control liver diseases. These data suggest that continuous enhanced synthesis of the 2-OADC components is not likely to be occurring in the biliary epithelial cells in PBC, and that an increase of PDC-E2 or E3BP immunoreactivity in PBC is caused by exogenous imported or cross-reactive molecules.     

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.     

Hepatic Met-enkephalin immunoreactivity is enhanced in primary biliary cirrhosis

BACKGROUND/AIMS: In contrast to the normal adult liver, the fetal human and rat livers, and the liver of rats with cholestasis secondary to bile duct resection (BDR) express the preproenkephalin (ppENK) mRNA, which codes for the endogenous opioid peptide Met-enkephalin. In addition, Met-enkephalin immunoreactivity (MEIR) is detected in hepatocytes and in proliferating bile ductules in the cholestatic rat liver. These data suggest that cholestasis is associated with the resurgence of cells that produce Met-enkephalin. To explore further the status of opioids in cholestasis, we studied the expression of MEIR in liver tissue. METHODS: The MEIR was sought in paraffin-preserved liver tissues from patients with primary biliary cirrhosis (PBC) (n = 10). RESULTS: The MEIR was detected in all the PBC livers. Its intensity varied from weak to strong on hepatocytes and bile ducts and the strongest expression appeared as coarse granules. The MEIR was either absent or only faintly expressed by some hepatocytes from disease and nondisease control biopsies, but absent from bile ducts. CONCLUSION: These results suggest that the human liver in cholestasis may be a source of endogenous opioids.     

Expression of blood group-related antigens in the intrahepatic biliary tree and hepatocytes in normal livers and various hepatobiliary diseases

The distribution of blood group-related antigens (A, B, H, Lea and Leb) in the intrahepatic biliary tree and hepatocytes was studied by immunoperoxidase techniques. In normal livers, large and septal bile ducts expressed A and B antigens in the cases with comparable blood groups and also expressed H antigen frequently in the cases with blood group O, A or B, and infrequently in the cases with AB. Lea and Leb were found in biliary cells at any level in secretors. In hepatobiliary diseases, A, B and H were neoexpressed in the interlobular bile ducts in addition to their expression in the large and septal bile ducts. Lea and Leb were found in almost all proliferated bile ductules and in some hepatocytes, especially those adjacent to ductules, in any of the hepatobiliary diseases, and their expression seemed parallel to the disease activity. H antigen was also neoexpressed in some hepatocytes and proliferated bile ductules. Extramural peribiliary glands expressed H, Lea, Leb and, to a lesser degree, A and B antigens in normal and pathologic conditions. This study disclosed that the normal biliary tree has a specific expression of blood group antigens at different levels and that this expression is altered in pathologic conditions. Periportal hepatocytes showed neoexpression of blood group antigens in pathologic conditions, and some of these hepatocytes may undergo ductular metaplasia.     

Contribution to antimitochondrial antibody production: cleavage of pyruvate dehydrogenase complex-E2 by apoptosis-related proteases.

Patients with PBC produce a directed, specific response to a single immunodominant autoepitope of PDC-E2 within the inner lipoyl domain. In contrast, immunized animals react to multiple epitopes and rarely recognize the inner lipoyl domain. In other autoimmune diseases, apoptosis plays a critical role in antigen presentation; the caspases and granzyme B are the key proteases in the generation of autoepitopes. To determine the specific cleavage pattern of full-length recombinant PDC-E2, we performed in vitro digestion with caspases-3, -6, -8 and granzyme B. The resulting fragments were immunoblotted and probed with an extensive panel of monoclonal anti-PDC-E2 antibodies and sera from patients with PBC. Interestingly, on granzyme B digestion, PDC-E2 lost reactivity, suggesting the destruction of the immunodominant epitope. Because this site contains the major epitope for both B cells and T cells, it suggests that granzyme B is unlikely to be involved in generation of autoepitopes in primary biliary cirrhosis (PBC). In contrast, following treatment with the caspase enzymes, immunoreactive fragments were generated. Indeed, by confocal microscopy, activated caspase-3 is found in the marginal hepatocytes and bile ducts. Moreover, caspase-3 staining was strongest in the small intrahepatic bile ducts, the major site of tissue destruction in PBC. In conclusion, these data suggest that following apoptosis, the caspase family of proteolytic enzymes have the potential to generate immunogenic fragments that contribute to the autoantigen reservoir and the production of antimitochondrial antibodies. These findings are also consistent with the generation of an autoimmune response against an intracellular antigen that evades catabolism during apoptosis.     

Hepatic Met‐enkephalin immunoreactivity is enhanced in primary biliary cirrhosis

Abstract: Background/aims: In contrast to the normal adult liver, the fetal human and rat livers, and the liver of rats with cholestasis secondary to bile duct resection (BDR) express the preproenkephalin (ppENK) mRNA, which codes for the endogenous opioid peptide Met‐enkephalin. In addition, Met‐enkephalin immunoreactivity (MEIR) is detected in hepatocytes and in proliferating bile ductules in the cholestatic rat liver. These data suggest that cholestasis is associated with the resurgence of cells that produce Met‐enkephalin. To explore further the status of opioids in cholestasis, we studied the expression of MEIR in liver tissue. Methods: The MEIR was sought in paraffin‐preserved liver tissues from patients with primary biliary cirrhosis (PBC) (n = 10). Results: The MEIR was detected in all the PBC livers. Its intensity varied from weak to strong on hepatocytes and bile ducts and the strongest expression appeared as coarse granules. The MEIR was either absent or only faintly expressed by some hepatocytes from disease and nondisease control biopsies, but absent from bile ducts. Conclusion: These results suggest that the human liver in cholestasis may be a source of endogenous opioids.     

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.     

Heterogeneous response of antimitochondrial autoantibodies and bile duct apical staining monoclonal antibodies to pyruvate dehydrogenase complex E2: the molecule versus the mimic

The 2-oxo-acid dehydrogenase complexes and, in particular, the E2 component of the pyruvate dehydrogenase complex (PDC) are the target of antimitochondrial antibodies (AMA). More than 95% of primary biliary cirrhosis (PBC) patients have detectable levels of autoantibodies to PDC-E2 and in general these react with a region of the molecule that contains the prosthetic group lipoic acid (LA). LA is vital to the function of the enzyme, although there is conflicting evidence as to whether its presence is required for PDC-E2 recognition by AMA. Some, but not all, monoclonal antibodies (mAbs) to PDC-E2 produce an intense staining pattern at the apical surface of bile duct epithelial cells (BEC) in patients with PBC, and it has been argued that the molecule at the apical surface of PBC bile duct cells is a modified form of PDC-E2 or a cross-reactive molecule, acting as a molecular mimic. Herein, we characterize the epitopes recognized by 4 anti-PDC-E2 mAbs that give apical staining patterns (3 mouse and 1 human). In particular, by using a combination of recombinant antigens, competitive inhibition assays, and a unique peptide-on-bead assay, we determined that these apically staining mAbs recognize 3 or 4 distinct epitopes on PDC-E2. More importantly, this suggests that a portion spanning the entire inner lipoyl domain of PDC-E2 can be found at the BEC apical surface. In addition, competition assays with patient sera and a PDC-E2-specific mAb showed significant epitope overlap with only 1 of the 3 mouse mAbs and showed a differential response to the peptide bound to beads. These findings further highlight the heterogeneous response of patient autoantibodies to the inner lipoyl domain of PDC-E2.     

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.     

High expressions of caveolins on the proliferating bile ductules in primary biliary cirrhosis

AIM: An increase in bile ductular structures is observed in diverse human liver diseases, especially in primary biliary cirrhosis (PBC). These structures harbor the progenitor cell component of the liver. Caveolins are cholesterol-binding proteins involved in the regulation of several intracellular processes including cholesterol transport. This study aims to examine the role of caveolin in PBC. METHODS: Immunohistochemical and Western blotting studies were performed on human liver specimens obtained from patients with PBC and normal liver samples. The expression of caveolin (CAV)-1 and -2 was determined using specific antibodies. RESULTS: In normal liver, scanty immunostaining for CAV 1 and -2 was observed in bile ductules. In PBC liver samples, the expression levels of CAV-1 and -2 were increased on proliferating bile ductules especially in stage 3 cases, but was sparse on interlobular bile duct in stage 1 specimens. Especially, the regenerating bile ductules at the interface of portal tracts and necrotic areas were immunostained intensely for CAV-1 and -2. These phenomena were confirmed by Western blot. CONCLUSION: The present results demonstrate increased expression of caveolins in proliferating bile ductules in PBC, which may be related to the homeostasis of cholesterol transport in regenerating bile ductules in PBC liver.     

Immunohistochemical study on bile ductular proliferation in various hepatobiliary diseases

ABSTRACT- Proliferation of the two types of bile ductules, typical and atypical, in the portal and periportal areas was examined in various liver diseases other than cirrhosis to determine any difference in their immunohistochemical properties and presumed histogenesis. While the typical ductules with a well-formed lumen were frequently seen in a large spectrum of diseases, atypical ductules with a poorly defined lumen were encountered much more frequently in prolonged biliary diseases, including primary biliary cirrhosis and primary sclerosing cholangitis, than in nonbiliary hepatic diseases. Immunocytochemically, cytoplasmic keratin was intensively positive in typical ductules, and the degree of its intensity and extent was variable in atypical ductules. Simultaneously, some of the periportal hepatocytes revealed weak staining for keratin. Luminal borders of typical ductules usually revealed an expression of both carcinoembryonic antigen and epithelial membrane antigen, while atypical ductules and periportal hepatocytes lacked epithelial membrane antigen. The atypical ductules, together with the adjoining hepatocytes, appeared on occasion to form anastomosing cords in prolonged biliary diseases. Thus, atypical ductules seem likely to originate from ductular transformation of the periportal hepatocytes and the typical ductules might result from the proliferation of preexisting interlobular bile ducts and ductules.     

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.     

27例原发性胆汁性肝硬化的组织病理学特征

目的 总结原发性胆汁性肝硬化（PBC）患者的临床及病理组织学特点。方法 对27例原发性胆汁性肝硬化患者的临床资料进行分析，重点讨论其肝脏组织病理学特点。结果 本组男、女之比为1：8（3：24），年龄22－69岁。其主要临床症状为乏力（62．9％，17／27），其次为黄疸（59．2％，16／27）和皮肤瘙痒（29．6％，8／27）。患者的血清碱性磷酸酶（ALP）及γ－谷氨酰转肽酶（GGT）均明显升高，95．8％的患者（23／27）抗线粒体抗体或线粒体抗体M2亚型阳性。肝组织病理学特点为：小叶间胆管变性坏死、基底膜不完整，周围有淋巴细胞和浆细胞浸润（66％，18／27）；汇管区淋巴细胞聚集（100％，27／27）或淋巴滤泡形成（15％，4／27）；肉芽肿形成（26％，7／27）及小叶间胆管减少；细小胆管增生（55％，15／27），肝细胞羽毛状变性（59％，16／27）；肝细胞内胆色素沉积和（或）毛细胆管胆栓形成（52％，14／27）；纤维组织增生，小叶结构紊乱（26％，7／27），假小叶形成（11％，3／27）。结论 乏力、皮肤瘙痒及血清ALP、GGT升高及抗线粒体抗体阳性是PBC的主要临床特征；而小叶间胆管炎、胆管数目减少，汇管区淋巴细胞聚集、肉芽肿形成、细小胆管增生，以及肝细胞羽毛状变性是PBC的主要病理特点。     

Immunohistochemical demonstration of pancreatic alpha-amylase and trypsin in intrahepatic bile ducts and peribiliary glands

Epithelia of intrahepatic bile ducts and peribiliary glands were immunohistochemically examined for pancreatic alpha-amylase and trypsin in 54 normal autopsied livers. alpha-Amylase was evaluated with a polyclonal antibody, and trypsin was assayed with both polyclonal and monoclonal antibodies. alpha-Amylase was observed in large ducts, septal ducts and peribiliary glands in most livers and was seen in interlobular ducts in seven (13%) livers. Trypsin immunoreactivity with the polyclonal antibody was observed in peribiliary glands in 21 (39%) livers; it was absent in intrahepatic bile ducts in all but one liver. Trypsin immunoreactivity with the monoclonal antibody was present in large ducts, septal ducts and peribiliary glands in about 70% of the livers and was seen in interlobular ducts in two (4%) livers. Bile ductules were always negative for the two antigens. Some epithelia of peribiliary glands positive for both alpha-amylase and trypsin histologically resembled pancreatic acinar cells. alpha-Amylase and trypsin immunoreactivities of intrahepatic biliary epithelia and pancreatic aninar cells were eliminated by absorption of primary antibodies by alpha-amylase or trypsin, suggesting the specificities of the immunoreactivities. These data suggest that epithelia of intrahepatic large ducts, septal ducts and peribiliary glands contain pancreatic alpha-amylase in most livers and that they contain trypsin in about 70% of livers. alpha-Amylase and trypsin may be secreted into intrahepatic bile duct lumens, thereby exerting important effects on the physiology of the intrahepatic biliary tree and hepatic bile.     

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.     

Increased expression of intercellular adhesion molecule 1 on bile ducts in primary biliary cirrhosis and primary sclerosing cholangitis.

It has been suggested that immunological mechanisms involving lymphocyte-mediated damage are important in the characteristic bile-duct damage that occurs in primary biliary cirrhosis and primary sclerosing cholangitis. Because adhesion is necessary for the interaction of lymphocytes with their target structures, we have studied the expression of intercellular adhesion molecule 1, a ligand for the leukocyte adhesion receptor lymphocyte function-associated antigen 1 in the liver of patients with primary biliary cirrhosis and primary sclerosing cholangitis. Strong expression of intercellular adhesion molecule 1 was seen on interlobular bile ducts and proliferating bile ductules in both conditions. In primary biliary cirrhosis, medium-sized ducts, which are spared by the disease, were negative. Minimal bile-duct staining was seen in conditions in which bile-duct damage is not a major feature, such as nonbiliary cirrhosis and acute liver diseases. In patients with cirrhosis from any cause, strong expression of intercellular adhesion molecule 1 was detected on the periseptal hepatocytes adjacent to new connective tissue. The intensity of immunohistochemical staining was recorded using a semiquantitative visual scoring system that was subsequently validated quantitatively by confocal laser scanning microscopy. The expression/induction of intercellular adhesion molecule 1 on bile ducts may be important in the pathogenesis of bile-duct damage in primary biliary cirrhosis and primary sclerosing cholangitis and is further evidence to support an immune pathogenesis in these two conditions. Furthermore, the induction of intercellular adhesion molecule 1 on hepatocytes may be an important factor in the liver-cell damage and fibrosis that occur during the development of cirrhosis.     

Aberrant expression of cytokeratin 7 as a histological marker of progression in primary biliary cirrhosis

AIM: We evaluated the aberrant expression of cytokeratin 7 (CK-7) in hepatocytes as a marker of cholestasis and progression in primary biliary cirrhosis (PBC). PATIENTS AND METHODS: The expression of CK-7 was studied by immunohistochemistry in 83 cases of PBC. This expression was compared with biochemical data, the deposition of copper-associated protein, and previous histological classifications. RESULTS: In normal liver, CK-7 was expressed exclusively in bile duct epithelial cells (BDE). In PBC, the expression was also observed in hepatocytes. The expression pattern was classified as follows: Grade 0, BDE as in normal; Grade 1, proliferated bile ductules; Grade 2, periportal hepatocytes in addition to proliferated bile ductules; Grade 3, intralobular hepatocytes; Grade 4, the majority of hepatocytes. The grades correlated with serum bilirubin levels but not with serum levels of biliary enzymes. A discrepancy between the CK-7 grading and Ludwig's classification was noted in cases with Stage 1 of the CK-7 grading who were considered Stage 2 or 3 in Ludwig's classification, suggesting that cholestasis and inflammatory activity might be independent events. CONCLUSIONS: These results suggest that the aberrant expression of CK-7 in hepatocytes may be a marker of chronic cholestasis and progression in PBC.     

Ultrastructural study of interlobular bile ductal disorganization in autoimmune liver diseases

Ultrastructures of interlobular bile ductules were examined in 7 cases of lupoid hepatitis and related disease (LH) and 8 cases of primary biliary cirrhosis (PBC). Mononuclear cell, especially lymphocyte infiltrations into bile ducts cross basement membrane were common findings found in 57.1% of LH and in 50% of PBC patients, thus, statistically, the occurrence of lymphocyte infiltration was similar for both groups. Cell contact between bile duct epithelia and infiltrated cells differed in LH and PBC. In LH, 86.7% of the cells contacted at small point, but 92.3% PBC cells had broad contact with each other. Stratification of bile duct epithelia and other visible changes in PBC epithelial cells was statistically more extensive compared with LH. Dilatation of intercellular space was often observed in basal region of LH. Destruction and degeneration of LH and PBC bile duct epithelial cells was mainly observed in basal and luminal regions, respectively. Rupture and thickening of basement membrane was seen in PBC, but rarely in LH. The average diameter of interlobular bile ducts were larger and oval shaped in patients with PBC compared to smaller circular ducts observed in LH patients. These results not only revealed that several changes in interlobular bile ducts occur but that similar changes with LH and PBC. This suggests that both distinctions and similarities exist between LH and PBC as autoimmune hepatic disease.     

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.