Characterization and isolation of ductular cells coexpressing neural cell adhesion molecule and Bcl-2 from primary cholangiopathies and ductal plate malformations.
(41/1207)
It has recently been shown that reactive bile ductules display neuroendocrine features, including immunoreactivity for the neural cell adhesion molecule (NCAM). In this study we have compared the immunohistochemical expression of NCAM with that of HEA-125 (biliary specific) and LKM-1 (hepatocyte specific) and other markers relevant to morphogenesis (Bcl-2, EMA) and cell proliferation (Ki-67) in cryostat sections from different chronic liver diseases and from fetal livers at different gestational ages. In parallel, viable NCAM-positive ductular cells were purified from collagenase digests of cirrhotic livers by immunomagnetic separation and characterized by immunocytochemistry and transmission electron microscopy. We demonstrated that reactive ductules with atypical morphology coexpressed NCAM and Bcl-2 and were found mainly in congenital diseases associated with ductal plate malformation and in primary cholangiopathies. On the contrary, reactive ductules with typical morphology were negative for NCAM/Bcl-2 and positive for EMA. Reactive ductules coexpressing NCAM/Bcl-2 were negative for the proliferation marker Ki-67 and appeared to be directly connected with periportal hepatocytes. In fetal livers NCAM/Bcl-2 was transiently expressed during the early developmental stages of ductal plate (10-16 weeks) and started to disappear as the ductal plate began duplicating. NCAM-positive ductal plate cells were Ki-67 negative, becoming positive in duplicated segments. Thus the histogenesis of ductular reactive cells seems to recapitulate the early stages of biliary ontogenesis. In primary cholangiopathies and ductal plate malformations, these cells do not appear to maturate further, and thus abundant ductular structures coexist with vanishing mature ducts. These NCAM-positive ductular cells were immunopurified from patients with chronic cholestatic liver diseases and showed ultrastructural features consistent with a less differentiated phenotype than mature cholangiocytes. These isolated cells represent a useful model for in vitro studies. (+info)
The development and compensation of biliary cirrhosis in interleukin-6-deficient mice.
(42/1207)
In an effort to understand the role of IL-6/gp130 signaling in chronic liver injury, IL-6 deficient (IL-6(-/-)) and wild-type control (IL-6(+/+)) mice were subjected to bile duct ligation (BDL) for 12 weeks. This maneuver causes chronic biomechanical stress and liver injury, fueling sustained biliary epithelial and hepatocyte proliferation. By 12 weeks after BDL, IL-6(-/-) mice develop significantly higher total serum bilirubin levels (23.2 +/- 2.3 versus 14.9 +/- 2.1 mg/dl, P < 0.0001; delta bilirubin subfraction 16.7 +/- 4.0% versus 9.2 +/- 1.8%; P < 0.002), and the majority (15/18) show "black" gallbladder bile, compared to IL-6(+/+) mice (5/16; P < 0.003). The IL-6(-/-) mice also cannot sustain the compensatory liver mass increase commonly seen with chronic obstructive cholangiopathy, because of less hepatocyte proliferation, despite a rate of hepatocyte apoptosis similar to that of IL-6(+/+) mice. Moreover, IL-6(-/-) mice show a more advanced stage of biliary fibrosis and a higher mortality rate than the IL-6(+/+) controls (51% versus 23%; P < 0.02). These phenotypic changes in the IL-6(-/-) mice are associated with decreased expression and phosphorylation of gp130 and the transcription factor STAT3, compared to IL-6(+/+) mice. Daily treatment with exogenous recombinant IL-6 for 3-6 weeks starting at 6 weeks after BDL significantly lowers the serum total bilirubin in both groups. In the IL-6(-/-) mice, exogenous IL-6 treatment also increases the level of gp130 protein expression and completely reverses the loss of liver mass by increasing the hepatocyte proliferation. In conclusion, IL-6 appears to contribute to biliary tree integrity and maintenance of hepatocyte mass during chronic injury. (+info)
Expression of the integrin alpha8beta1 during pulmonary and hepatic fibrosis.
(43/1207)
The fibrotic response after diverse forms of injury is characterized by the accumulation of extracellular matrix proteins, proliferation of myofibroblast-like cells, and organ contraction. Myofibroblasts are key effector cells in the development of the fibrotic response. They contribute to fibrosis through both increased cell number (proliferation) and enhanced matrix synthesis. Integrins, a class of cell adhesion molecules, are mediators of cell-extracellular matrix protein interactions that are important in the proliferative and migratory response of cells to matrix proteins. We have previously cloned the human integrin subunit alpha8, documented its high expression in lung tissue, and established it as a receptor for the matrix proteins fibronectin, vitronectin, and tenascin. We now demonstrate that alveolar interstitial cells are the primary cell type expressing alpha8beta1 in the lung parenchyma. Expression of alpha8beta1 is concentrated primarily along the thinned extensions of cells and at the tips of filopodia. Because of its unique distribution in alveolar interstitial cells, we hypothesized that it may play a role in the fibrotic response after injury. In bleomycin-induced pulmonary fibrosis, there is increased expression of alpha8beta1 by interstitial fibroblasts, the majority of which coexpress alpha smooth muscle actin, a marker of tissue myofibroblasts. To establish a more general role for alpha8beta1 during organ fibrosis, we further examined its expression in two rat models of liver fibrosis. During hepatic injury due to either carbon tetrachloride injury or bile duct ligation, we demonstrate de novo expression of alpha8beta1 in activated hepatic stellate cells, the myofibroblast equivalent in liver. Taken together, the data localize alpha8beta1 to myofibroblast-like cells during wound healing and suggest that signal transduction through the alpha8beta1 integrin may contribute to the fibrotic response of organs to injury. (+info)
Proliferation and differentiation of fetal liver epithelial progenitor cells after transplantation into adult rat liver.
(44/1207)
To identify cells that have the ability to proliferate and differentiate into all epithelial components of the liver lobule, we isolated fetal liver epithelial cells (FLEC) from ED 14 Fischer (F) 344 rats and transplanted these cells in conjunction with two-thirds partial hepatectomy into the liver of normal and retrorsine (Rs) treated syngeneic dipeptidyl peptidase IV mutant (DPPIV(-)) F344 rats. Using dual label immunohistochemistry/in situ hybridization, three subpopulations of FLEC were identified: cells expressing both alpha-fetoprotein (AFP) and albumin, but not CK-19; cells expressing CK-19, but not AFP or albumin, and cells expressing AFP, albumin, and cytokeratins-19 (CK-19). Proliferation, differentiation, and expansion of transplanted FLEC differed significantly in the two models. In normal liver, 1 to 2 weeks after transplantation, mainly cells with a single phenotype, hepatocytic (expressing AFP and albumin) or bile ductular (expressing only CK-19), had proliferated. In Rs-treated rats, in which the proliferative capacity of endogenous hepatocytes is impaired, transplanted cells showed mainly a dual phenotype (expressing both AFP/albumin and CK-19). One month after transplantation, DPPIV(+) FLEC engrafted into the parenchyma exhibited an hepatocytic phenotype and generated new hepatic cord structures. FLEC, localized in the vicinity of bile ducts, exhibited a biliary epithelial phenotype and formed new bile duct structures or were incorporated into pre-existing bile ducts. In the absence of a proliferative stimulus, ED 14 FLEC did not proliferate or differentiate. Our results demonstrate that 14-day fetal liver contains lineage committed (unipotential) and uncommitted (bipotential) progenitor cells exerting different repopulating capacities, which are affected by the proliferative status of the recipient liver and the host site within the liver where the transplanted cells become engrafted. These findings have important implications in future studies directed toward liver repopulation and ex vivo gene therapy. (+info)
Extrahepatic biliary atresia versus neonatal hepatitis. Review of 137 prospectively investigated infants.
(45/1207)
In a prospective regional survey of neonatal hepatitis syndrome 32 infants had extrahepatic biliary atresia (EHBA) and 103 had hepatitis. No cause for the lesion was found in infants with extrahepatic biliary atresia, but in 32 with hepatitis a specific cause was identified, 24 having genetic deficiency of the serum protein alpha1-antitrypsin. No differences were observed in parental age, mother's health in pregnancy, month of birth, birth order, or sex of the infants. Familial idiopathic hepatitis occurred in 3 of 67 sibs of patients with idiopathic hepatitis, but the 33 sibs of EHBA patients had no liver disease. Of the infants with hepatitis, 36 were of low birthweight, less than 2.5 kg, and 23 were born prematurely. Infants with biliary atresia were all of normal birthweight and only one was born prematurely. Consideration of clinical and biochemical abnormalities in the first 2 months of life showed no differences between the two groups except that infants with EHBA were more commonly jaundiced from birth (80%) and had more frequently acholic stools (83%). The frequency of these features in patients with hepatitis being 68% and 52%. Standard tests of liver function were not discriminatory. Percutaneous liver biopsies were diagnostic in 75% of those with EHBA and in 92% of those with hepatitis. The I131 Rose Bengal faecal excretion was less than 10% in 26 of 28 infants with EHBA and in only 5 of 18 with hepatitis. These latter two investigations together allowed a correct preoperativer diagnosis of EHBA in all instances. Bile drainage was achieved surgically in only 3 cases. A major reason for these poor results may have been the late referral of cases for diagnosis and laparotomy, which should be performed as soon as the diagnosis is suspected and always by 70 days of age. (+info)
Manometric changes during retrograde biliary infusion in mice.
(46/1207)
The manometric, ultrastructural, radiographic, and physiological consequences of retrograde biliary infusion were determined in normostatic and cholestatic mice. Intraluminal biliary pressure changed as a function of infusion volume, rate, and viscosity. Higher rates of constant infusion resulted in higher peak intraluminal biliary pressures. The pattern of pressure changes observed was consistent with biliary ductular and/or canalicular filling followed by leakage at a threshold pressure. Retrograde infusion with significant elevations in pressure led to paracellular leakage of lanthanum chloride, radiopaque dye, and [(14)C]sucrose with rapid systemic redistribution via sinusoidal and subsequent hepatic venous drainage. Chronic extrahepatic bile duct obstruction resulted in significantly smaller peak intrabiliary pressures and lower levels of paracellular leakage. These findings indicate that under both normostatic and cholestatic conditions elevated intrabiliary volumes/pressures result in an acute pressure-dependent physical opening of tight junctions, permitting the movement of infusate from the intrabiliary space into the subepithelial tissue compartment. Control of intraluminal pressure may potentially permit the selective delivery of macromolecules >18-20 A in diameter to specific histological compartments. (+info)
Bile mediates intestinal pathology in endotoxemia in rats.
(47/1207)
Intestinal pathology frequently accompanies experimental endotoxic shock and is mediated by proinflammatory cytokines. Our hypotheses are that hepatobiliary factors operating from the luminal side of the gut make a major contribution to this damage and that tumor necrosis factor alpha (TNF-alpha) is involved in the pathology. We treated rats with lipopolysaccharide (LPS) intravenously and found that external drainage of bile totally protected the gastrointestinal tract, macroscopically and microscopically, 4 h after LPS administration and dramatically improved survival of the animals for 48 h after LPS administration. The concentration of TNF-alpha in bile increased markedly after LPS administration and was over 30 times higher in bile than in serum. Tissue damage and the biliary TNF-alpha response were abrogated when animals were pretreated with gadolinium chloride to eliminate Kupffer cells. TNF-alpha infusion into the duodenal lumen caused intestinal damage similar to that elicited by intravenous LPS. In rats treated with LPS, survival was significantly increased during the first 36 h in animals given an infusion of anti-TNF-alpha antibody into the duodenum. These results demonstrate that in endotoxemia, intestinal damage is mediated by factors derived from the bile. The findings indicate that luminally acting TNF-alpha contributes to the intestinal damage. (+info)
Biliary and urinary metabolic profiles of 1,2-diethyl-3-hydroxypyridin-4-one (CP94) in the rat.
(48/1207)
This study compares the biliary and urinary metabolic profiles of 1,2-diethyl-3-hydroxypyridin-4-one (CP94), an orally active iron chelator, in the normal rat. Surprisingly, CP94 was found to form two phase II metabolites, the 3-O- and 4-O-glucuronides. These glucuronides accounted for 38 and 28% of the administered CP94 dose, in bile and urine, respectively. Unchanged CP94 accounted for 5% of the CP94 dose in both bile and urine. The 2-(1'-hydroxy) metabolite of CP94 was found to be the dominant metabolite in urine. In addition, an unstable metabolite was detected in the bile although its structure remains unknown at the present stage. The excretion of iron in bile, after administration of CP94, was found to parallel the biliary elimination of CP94 together with its hydroxylated derivatives, indicating the importance of metabolites in iron excretion. (+info)