Immunolocalization of regenerating cells after submassive liver necrosis using PCNA staining

Human liver regeneration following massive hepatic necrosis: Two distinct patterns

BACKGROUND AND AIM

Massive hepatic necrosis is a rare but often fatal complication of various liver injuries. Nevertheless, some patients can survive by spontaneous hepatic regeneration. It is known that surviving hepatocytes and/or progenitor cells can participate in this process but the mechanism of hepatic recovery is vague.

METHODS

We examined 13 explanted human livers removed for acute liver failure. Combined immunohistochemistry, digital image analysis, and three-dimensional reconstruction of serial sections were applied.

RESULTS

Two patterns of regeneration could be distinguished. In livers with centrilobular necrosis, the surviving injured periportal hepatocytes started to proliferate and arrange into acinar structures and expressed α-fetoprotein. If the injury wiped out almost all hepatocytes, large areas of parenchymal loss were invaded by an intense ductular reaction. The cells at the distal pole of the ductules differentiated into hepatocytes and formed foci organized by the branches of the portal vein. The expanding foci often containing complete portal triads were arranged around surviving central veins. Their fusion eventually could be an attempt to re-establish the hepatic lobules.

CONCLUSIONS

Regeneration of human livers following massive hepatic necrosis can occur in two ways-either through proliferation of α-fetoprotein-positive acinary-arranged hepatocytes or through ductular progenitor cells, with the latter being less efficient. Further investigation of these regenerative pathways may help identify biomarkers for likelihood of complete regeneration and hence have therapeutic implications.

HIF1a Inhibitor Rescues Acute-on-Chronic Liver Failure

INTRODUCTION AND OBJECTIVES

Hypoxia-inducible factor-1α is critically involved in the pathogenesis of liver diseases. Its inhibitor genistein attenuated D-galactosamine (D-GalN)-induced liver damage. However, the role of genistein in acute-on-chronic liver failure (ACLF) is unclear. The influence of genistein on reactive oxygen species (ROS) and hepatocyte functions were evaluated in a rat model of ACLF.

MATERIAL AND METHODS

Genistein [20mg/ (kg. day)]/coenzyme Q10 [10mg/ (kg. day)]/lipoic acid [20mg/ (kg. day)] was administered via the intra-gastric route daily for 6 weeks as co-treatment to the rats in the experimental groups. Then, 100μg/kg LPS combined with 0.5g/kg D-GalN was injected intraperitoneally to attack the rats.

RESULTS

Genistein significantly attenuated LPS/D-GalN-induced ACLF, characterized by ameliorated gross appearance and microscopic histopathology of liver, reduced AST level in serum, whereas increased levels of ATP, ADP/O, and respiratory control ratio (RCR) in mitochondria. Genistein suppressed necrosis and ROS production.

CONCLUSION

These results suggested that genistein could protect against ACLF through inhibiting cellular ROS production and necrosis, improving RCR, and decreasing permeability transition pores in mitochondrial, which was similar as mitochondrial protective agent coenzyme Q10.

Herbal Compound "Jiedu Huayu" Reduces Liver Injury in Rats via Regulation of IL-2, TLR4, and PCNA Expression Levels

Aim of the Study. To investigate the preventative effects of Jiedu Huayu (JDHY) on D-galactosamine (D-GalN) and lipopolysaccharide-induced acute liver failure (ALF) and to evaluate the possible mechanisms of action. Materials and Methods. ALF was induced in Wistar rats by administrating D-GalN (900 mg/kg) and lipopolysaccharide (10 μg/kg). After treatment with JDHY granules, the levels of blood alanine aminotransferase, aspartate aminotransferase, total bilirubin, and prothrombin time were determined. Proliferating cell nuclear antigen was detected by immunohistochemistry staining. The expression of interleukin-2 (IL-2) and toll-like receptor 4 (TLR4) was examined by fluorescence quantitative reverse transcription polymerase chain reaction (qRT-PCR) and Western blot. Results. JDHY treatment dramatically improved liver function and increased survival rates in an ALF model in rats. We observed a decrease in IL-2 and TLR4 expression following treatment with JDHY in liver cells from ALF rats using qRT-PCR and Western blot analysis. Conclusion. We hypothesize that the therapeutic potential of JDHY for treating ALF is due to its modulatory effect on the suppression of inflammation and by promoting hepatocyte regeneration. Our results contribute towards validation of the traditional use of JDHY in the treatment of liver disease.

Leishmanial lipid affords protection against oxidative stress induced hepatic injury by regulating inflammatory mediators and confining apoptosis progress

Persistence of liver injury alters the internal milieu, promotes deregulation of inflammatory factors, and leads to dysplastic lesions like fibrosis, cirrhosis to hepatocellular carcinoma. Our previous study revealed that leishmanial lipid (pLLD) exerts potential anti-inflammatory activity in sepsis associated hepatic injury. We now show that pLLD gives protection against chemical induced hepatotoxicity in murine system. The beneficial effect of treatment with pLLD on such hepatic injury in mice was analyzed using different assays including ELISA, FACS, western blot and immunohistochemical analysis. pLLD significantly suppressed serum enzymes and rectified the histopathological alteration to induce the antioxidant level in CCl4 intoxicated liver. Levels of several growth factors including TGF-β, HGF, and EGF were significantly improved in serum and hepatic tissue with consequent reduction of caspase activities and expressions of Bad, Bax, p53, and NF-κBp65. Moreover, pLLD modulated inflammatory responses by decreasing the production of several cytokines and chemokines, thus preventing the infiltration of immune cells to the damaged area. It accelerated the repair process in liver damage with modulation of signalling cascade via alteration of apoptotic factors. Our experimental approaches suggest that pLLD effectively prevents liver injury mainly through down regulation of oxidative stress and inflammatory response towards anti-apoptotic changes.

Liver stem cells

The capacity of hepatocytes and cholangiocytes to contribute to their own maintenance has long been recognized. More recently, studies have indicated the presence of both intra-hepatic and extra-hepatic stem/progenitor cell populations. The intraorgan compartment probably derives primarily from the biliary tree, most particularly the most proximal branches, i.e. the canals of Hering and smallest ductules. The extra-organ compartment is at least in part derived from diverse populations of cells from the bone marrow. These three tiers of liver cell regeneration serve to maintain the normal organ and to regenerate damaged parenchyma in response to a variety of insults. The nature and extent of the insult determines the balance between these stem/progenitor compartments.

Epithelial cell adhesion molecule (EpCAM) marks hepatocytes newly derived from stem/progenitor cells in humans

Epithelial cell adhesion molecule (EpCAM) is a surface marker on human hepatic stem/progenitor cells that is reported as absent on mature hepatocytes. However, it has also been noted that in cirrhotic livers of diverse causes, many hepatocytes have EpCAM surface expression; this may represent aberrant EpCAM expression in injured hepatocytes or, as we now hypothesize, persistence of EpCAM in hepatocytes that have recently derived from hepatobiliary progenitors. To evaluate this concept, we investigated patterns of EpCAM expression in hepatobiliary cell compartments of liver biopsy specimens from patients with all stages of chronic hepatitis B and C, studying proliferation, senescence and telomere lengths. We found that EpCAM(+) hepatocytes were rare in early stages of disease, became increasingly prominent in later stages in parallel with the emergence of ductular reactions, and were consistently arrayed around the periphery of cords of keratin 19(+) hepatobiliary cells of the ductular reaction, with which they shared EpCAM expression. Proliferating cell nuclear antigen (proliferation marker) and p21 (senescence marker) were both higher in hepatocytes in cirrhosis than in normal livers, but ductular reaction hepatobiliary cells had the highest proliferation rate, in keeping with being stem/progenitor cell-derived transit amplifying cells. Telomere lengths in EpCAM(+) hepatocytes in cirrhosis were higher than EpCAM(-) hepatocytes (P < 0.046), and relatively shorter than those in the corresponding ductular reaction hepatobiliary cells (P = 0.057).

CONCLUSION

These morphologic, topographic, immunophenotypic, and molecular data support the concept that EpCAM(+) hepatocytes in chronic viral hepatitis are recent progeny of the hepatobiliary stem/progenitor cell compartment through intermediates of the transit amplifying, ductular reaction hepatobiliary cells.

Effect of human patient plasma ex vivo treatment on gene expression and progenitor cell activation of primary human liver cells in multi-compartment 3D perfusion bioreactors for extra-corporeal liver support

Cultivation of primary human liver cells in innovative 3D perfusion multi-compartment capillary membrane bioreactors using decentralized mass exchange and integral oxygenation provides in vitro conditions close to the physiologic environment in vivo. While a few scale-up bioreactors were used clinically, inoculated liver progenitors in these bioreactors were not investigated. Therefore, we characterized regenerative processes and expression patterns of auto- and paracrine mediators involved in liver regeneration in bioreactors after patient treatment. Primary human liver cells containing parenchymal and non-parenchymal cells co-cultivated in bioreactors were used for clinical extra-corporeal liver support to bridge to liver transplantation. 3D tissue re-structuring in bioreactors was studied; expression of proteins and genes related to regenerative processes and hepatic progenitors was analyzed. Formation of multiple bile ductular networks and colonies of putative progenitors were observed within parenchymal cell aggregates. HGF was detected in scattered cells located close to vascular-like structures, expression of HGFA and c-Met was assigned to biliary cells and hepatocytes. Increased expression of genes associated to hepatic progenitors was detected following clinical application. The results confirm auto- and paracrine interactions between co-cultured cells in the bioreactor. The 3D bioreactor provides a valuable tool to study mechanisms of progenitor activation and hepatic regeneration ex vivo under patient plasma treatment.

Auxiliary transplantation for acute liver failure: Histopathological study of native liver regeneration

Auxiliary liver transplantation (ALT) permits the serial assessment of regeneration in livers of patients with acute liver failure (ALF). Forty-nine ALF patients [32 adults (median age, 23 years; range, 16-40 years) and 17 children (median age, 12 years; range, 1-15 years)] underwent ALT between 1994 and 2004 at King's College Hospital. Twenty-four patients had seronegative liver failure, 15 had acetaminophen toxicity, 4 had hepatitis B virus (HBV) infection, 3 had drug-induced liver failure, 2 had autoimmune hepatitis, and 1 had mushroom poisoning. Nine patients without post-ALT native liver histology were excluded from review. All acetaminophen-induced, HBV, and drug-related patients had diffuse injury. Twelve seronegative patients and the autoimmune hepatitis patient had a map-like injury. On follow-up, 9 acetaminophen-induced patients, 9 seronegative patients, 2 drug-induced ALF patients, 3 HBV patients, and the autoimmune patient recovered to a near-normal native liver with inconsequential scarring. The hepatocyte proliferative rate in diffuse necrosis was 27.4% (range, 3.1%-69.4%) at hepatectomy and sharply decreased after 8 days post-ALT, being minimal months and years after ALT. In conclusion, in patients undergoing ALT for ALF with a diffuse pattern of liver injury-mainly acetaminophen toxicity-hepatocyte proliferation occurs in the native liver within a few days of transplantation. If the injury is map-like (most cases of seronegative ALF), regeneration seems to involve variable hepatocellular proliferation and potential ductular hepatopoiesis, but sequential assessment is difficult because of sampling variation. The likelihood of histological recovery appears to be minimal in livers with total hepatocyte loss at the time of ALT.

A novel tumor necrosis factor-alpha suppressant, ONO-SM362, prevents liver failure and promotes liver regeneration after extensive hepatectomy

BACKGROUND

Tumor necrosis factor (TNF)-alpha is a cytokine that initiates liver regeneration after hepatectomy (HTx), although extensive HTx can cause liver failure with significant rise in serum TNF-alpha levels. To test our hypothesis that modulation of endogenous TNF-alpha attenuates liver failure even after extensive HTx, we used ONO-SM362, a novel TNF-alpha inhibitor, in mice subjected to 85% HTx.

METHODS

ICR mice were divided into 5 groups: 70% HTx, 85% HTx, 85% HTx plus ONO-SM362, 85% HTx plus monoclonal TNF-alpha antibody (mAb), and 85% HTx plus FR167653, a TNF-alpha inhibitor. We analyzed the survival rate, blood ammonia (NH(3)), serum TNF-alpha levels, TNF-alpha mRNA expression in the liver and spleen by real-time polymerase chain reaction, histologic changes, polymorphonuclear neutrophils (PMNs) infiltration, and proliferating cell nuclear antigen labeling index (PCNA LI) in the 5 groups.

RESULTS

The survival rate at 7 days after surgery was 100%, 0%, 100%, 50%, and 0%, for the 70% HTx, 85% HTx, 85% HTx + ONO-SM362, 85% HTx + mAb, and 85% HTx + FR167653, respectively. Mice that underwent 85% HTx died from liver failure associated with a significant rise in serum TNF-alpha level. ONO-SM362 and mAb improved animal survival and enhanced PCNA LI. In addition, ONO-SM362 inhibited TNF-alpha mRNA expression in the remnant liver and suppressed PMNs infiltration.

CONCLUSIONS

Suppression of excessive TNF-alpha production using ONO-SM362 ameliorated liver failure after 85% HTx.

Effect of WeiJia on carbon tetrachloride induced chronic liver injury

AIM: To study the effect of WeiJia on chronic liver injury using carbon tetrachloride (CCl₄) induced liver injury animal model.

METHODS: Wistar rats weighing 180-220g were randomly divided into three groups: normal control group (Group A), CCl₄ induced liver injury control group (Group B) and CCl₄ induction with WeiJia treatment group (Group C). Each group consisted of 14 rats. Liver damage and fibrosis was induced by subcutaneous injection with 40% CCl₄ in olive oil at 3 mL/kg body weight twice a week for eight weeks for Groups B and C rats whereas olive oil was used for Group A rats. Starting from the third week, Group C rats also received daily intraperitoneal injection of WeiJia at a dose of 1.25 μg/kg body weight. Animals were sacrificed at the fifth week (4 male, 3 female), and eighth week (4 male, 3 female) respectively. Degree of fibrosis were measured and serological markers for liver fibrosis and function including hyaluronic acid (HA), type IV collagen (CIV), γ-glutamyl transferase (γ-GT), alanine aminotransferase (ALT) and aspartate aminotransferase (AST) were determined. Alpha smooth muscle actin (α-SMA) and proliferating cell nuclear antigen (PCNA) immunohistochemistry were also performed.

RESULTS: CCl₄ induction led to the damage of liver and development of fibrosis in Group B and Group C rats when compared to Group A rats. The treatment of WeiJia in Group C rats could reduce the fibrosis condition significantly compared to Group B rats. The effect could be observed after three weeks of treatment and was more obvious after eight weeks of treatment. Serum HA, CIV, ALT, AST and γ-GT levels after eight weeks of treatment for Group C rats were 58±22 µg/L (P<0.01), 57±21 µg/L (P<0.01), 47±10 U/L (P<0.01), 139±13 U/L (P<0.05) and 52±21 U/L (P>0.05) respectively, similar to normal control group (Group A), but significantly different from CCl₄ induced liver injury control group (Group B). An increase in PCNA and decrease in α-SMA expression level was also observed.

CONCLUSION: WeiJia could improve liver function and reduce liver fibrosis which might be through the inhibition of stellate cell activity.

Portal application of autologous CD133+ bone marrow cells to the liver: a novel concept to support hepatic regeneration

The liver has a large capacity for regeneration after resection. However, below a critical level of future liver remnant volume (FLRV), partial hepatectomy is accompanied by a significant increase of postoperative liver failure. There is accumulating evidence for the contribution of bone marrow stem cells (BMSCs) to participate in liver regeneration. Here we report on three patients subjected to intraportal administration of autologous CD133(+) BMSCs subsequent to portal venous embolization of right liver segments, used to expand left lateral hepatic segments as FLRV. Computerized tomography scan volumetry revealed 2.5-fold increased mean proliferation rates of left lateral segments compared with a group of three consecutive patients treated without application of BMSCs. This early experience with portovenous application of CD133(+) BMSCs could suggest that this novel therapeutic approach bears the potential of enhancing and accelerating hepatic regeneration in a clinical setting.

Clonal expansion of hepatocytes during chronic woodchuck hepatitis virus infection

Chronic hepadnavirus infections cause liver damage with ongoing death and regeneration of hepatocytes. In the present study we set out to quantify the extent of liver turnover by measuring the clonal proliferation of hepatocytes by using integrated viral DNA as a genetic marker for individual hepatocyte lineages. Liver tissue from woodchucks with chronic woodchuck hepatitis virus (WHV) infection was assayed for randomly integrated viral DNA by using inverse PCR. Serial endpoint dilution of viral-cell junction fragments into 96-well plates, followed by nested PCR and DNA sequencing, was used to determine the copy number of specific viral cell junctions as a measure of the clonal distribution of infected cell subpopulations. The results indicated that the livers contained a minimum of 100,000 clones of >1,000 cells containing integrated DNA, representing at least 0.2% of the hepatocyte population of the liver. Because cells with integrated WHV DNA comprised only 1-2% of total liver cells, it is likely that the total number of clones far exceeds this estimate, with as much as one-half of the liver derived from high copy clones of >1,000 cells. It may be inferred that these clones have a strong selective growth or survival advantage. The results provide evidence for a large amount of hepatocyte proliferation and selection having occurred during the period of chronic WHV infection ( approximately 1.5 years) in these animals.

Peroxisome proliferator-activated receptor γ ligands, 15-deoxy-Δ12,14-prostaglandin J2, and ciglitazone, induce growth inhibition and cell cycle arrest in hepatic oval cells

There is growing evidence to show that hepatic oval cells contribute to liver regeneration, dysplastic nodule formation, and hepato-carcinogenesis. Peroxisome proliferator-activated receptors (PPARs) and their ligands play an important role in cell growth, inflammatory responses, and liver pathogenesis including fibrosis and cancer. However, little is known about the role of PPARgamma/its ligands in the growth and differentiation of hepatic oval cells. In this study, we found that OC15-5, a rat hepatic oval cell line, expressed PPARgamma at mRNA and protein levels, and a natural ligand for PPARgamma, 15-deoxy-Delta12,14-prostaglandin J2 (15d-PGJ2), and a synthetic ligand, ciglitazone, inhibited growth of OC15-5 cells by arresting at G1-S in a dose-dependent manner. Apoptosis was also induced in OC15-5 cells by 15d-PGJ2 treatment. In OC15-5 cells treated with 15d-PGJ2, the expression of CDK inhibitor, p27(Kip1), was up-regulated, while that of p21(WAF1/Cip1), p18(INK4C) CDK2, CDK4, and cyclin E was unchanged. In addition, delayed up-regulation of AFP expression was observed in OC15-5 cells after 15d-PGJ2 or ciglitazone treatment. This is the first report to show that the PPARgamma ligand was involved in the growth, cell cycle, and differentiation of hepatic oval cells, raising the possibility that the PPARgamma ligands may regulate liver regeneration and hepato-carcinogenesis.

Progenitor cell activation in chronic viralhepatitis

BACKGROUND/AIM

Oval cell proliferation is known to occur in experimental models of hepatic regeneration and carcinogenesis. Recent studies have suggested that activation of progenitor cells, representing the human counterpart of oval cells, may play a role in hepatic diseases. Therefore, we evaluated putative progenitor cells in chronic viral hepatitis.

METHODS

Forty-one needle liver biopsy specimens from patients with chronic hepatitis B and 43 specimens from patients with chronic hepatitis C were examined histologically. The grade (histological activity index (HAI)) and stage (degree of fibrosis) were determined on routinely stained sections. The number of progenitor cells was assessed semiquantitatively on cytokeratin 7- (CK 7-) stained sections.

RESULTS

In both aetiological categories of chronic viral hepatitis, progenitor cell numbers were found to increase in parallel to the HAI, as well as to the stage of disease. Features suggestive of hepatocytic differentiation of progenitor cells were also noted on immunohistochemical stains for CK 7 and 'hepatocyte-specific' antigen.

CONCLUSIONS

In chronic hepatitis B and chronic hepatitis C, progenitor cell activation is correlated with the grade and stage of disease. Proliferating progenitor cells may play a role in hepatic regeneration occurring in this setting.

Liver death and regeneration in paracetamol toxicity

Paracetamol overdose (POD) is a major clinical problem as the commonest cause of fulminant hepatic failure (FHF) in the UK and the USA. While the main loss of liver mass occurs following hepatocyte necrosis, hepatocyte apoptosis has also been reported to occur during paracetamol toxicity in murine liver. Hepatocyte apoptosis has not previously been identified in human liver and the significance of apoptosis in paracetamol toxicity is not known. In this study of paracetamol toxicity in human liver after POD, hepatocyte apoptosis was identified at time of liver transplantation or death and was associated with striking regenerative activity. The biological significance of apoptosis is unclear but the rates of apoptosis found (0.6%) could account for a significant loss of hepatic parenchyma. The stimulus for apoptosis is not known but it is unlikely to be induced directly by paracetamol since it is absent from serum at this time. The possibility that apoptosis may be induced by Kupffer cell activation with cytokine production is raised. Patients who develop FHF after POD have a poor prognosis, with few therapeutic options apart from liver transplantation; an understanding of the dynamics of liver regeneration and ongoing cell loss by apoptosis may allow the development of new therapies in these patients.

Utility of hepatic phosphorus-31 magnetic resonance spectroscopy in a rat model of acute liver failure

The ability to document the extent of hepatic injury and predict the outcome of fulminant hepatic failure would be helpful in identifying those patients who might benefit from liver transplantation. The aim of the present study was to determine whether in vivo phosphorus-31 magnetic resonance spectroscopy (31P MRS) accurately assesses the severity of liver damage and is of prognostic value in a D-galactosamine (D-galN)-induced model of acute liver failure. Adult male Sprague-Dawley rats (n = 36) received an intraperitoneal dose of D-galN (1.0 g/kg), and MRS examinations were performed at peak (48 hours) and in subsequent experiments, just prior to peak (30 hours) hepatic injury. Rats not exposed to D-galN served as controls. The concentration of hepatic phosphorylated metabolites decreased in proportion to the severity of liver injury at 48 hours. Significant correlations were detected between hepatic adenosine triphosphate (ATP) and serum aspartate aminotransferase, bilirubin, and percentage of hepatocyte necrosis identified histologically (r = -.91, -.74, and -.92, respectively; p < .001). Prior to peak hepatic injury (30 hours), 31P MRS was able to predict with 100% accuracy those rats that would survive (ATP > 2.3 mM) and those that would not (ATP < 1.5 mM). When an intermediate cutoff value of 2.0 mM was selected, ATP levels were able to correctly predict survival and death with 80% and 60% accuracy, respectively. These findings indicate that hepatic ATP levels as measured by 31P MRS provide a noninvasive indication of the severity of liver damage and serve as a useful prognostic indicator of outcome in this model of acute liver failure.

Clustering of hepatotoxins based on mechanism of toxicity using gene expression profiles

Microarray technology, which allows one to quantitate the expression of thousands of genes simultaneously, has begun to have a major impact on many different areas of drug discovery and development. The question remains of whether microarray analysis and gene expression signature profiles can be applied to the field of toxicology. To date, there are very few published studies showing the use of microarrays in toxicology and important questions remain regarding the predictability and accuracy of applying gene expression profiles to toxicology. To begin to address these questions, we have treated rats with 15 different known hepatotoxins, including allyl alcohol, amiodarone, Aroclor 1254, arsenic, carbamazepine, carbon tetrachloride, diethylnitrosamine, dimethylformamide, diquat, etoposide, indomethacin, methapyrilene, methotrexate, monocrotaline, and 3-methylcholanthrene. These agents cause a variety of hepatocellular injuries including necrosis, DNA damage, cirrhosis, hypertrophy, and hepatic carcinoma. Gene expression analysis was done on RNA from the livers of treated rats and was compared against vehicle-treated controls. The gene expression results were clustered and compared to the histopathology findings and clinical chemistry values. Our results show strong correlation between the histopathology, clinical chemistry, and gene expression profiles induced by the agents. In addition, genes were identified whose regulation correlated strongly with effects on clinical chemistry parameters. Overall, the results suggest that microarray assays may prove to be a highly sensitive technique for safety screening of drug candidates and for the classification of environmental toxins.

Liver transplantation. Living donor, hepatocyte, and xenotransplantation

Liver transplantation is now accepted as effective therapy in the treatment of acute and chronic hepatic failure. Improvements in surgical techniques and immune suppression have led to 5-year survival rates that exceed 70% in most centers. The success of transplantation has led to a dramatic increase in the number of candidates to over 14,000 places on the national waiting list. While the number of patients in need of transplantation increases, there has been little growth in the supply of available cadaveric organs, resulting in an organ shortage crisis. With waiting times often exceeding 1 to 2 years, the waiting list mortality now exceeds 10% in most regions. Several novel approaches have been developed to address the growing disparity between the limited supply and excessive demand for suitable organs.

Deep intralobular extension of human hepatic 'progenitor cells' correlates with parenchymal inflammation in chronic viral hepatitis: can 'progenitor cells' migrate?

Ductular reaction and putative progenitor cells (or 'progenitor cells'), which are presumed to be the human counterpart of the oval cells in rat liver, have been discerned in various human liver diseases, including chronic viral hepatitis. Since in experimental models of chronic hepatitis the activation of oval cells is correlated with the inflammatory infiltrate, this study investigated whether there is a correlation in chronic viral hepatitis between the number of 'progenitor cells' extending into the lobule and the severity of parenchymal inflammation, on the one hand, and the extent of ductular reaction and the severity of interface hepatitis, on the other hand. Liver biopsies of 55 patients with chronic hepatitis B and/or C were used. The severity of parenchymal inflammation and of interface hepatitis was semiquantitatively graded on a haematoxylin and eosin-stained paraffin section, while the number of 'progenitor cells' and the extent of the ductular reaction were assessed on a serial section stained for cytokeratin (CK) 7. In addition, more extensive phenotyping of 'progenitor cells' was performed on sections from frozen material from five patients, using antibodies against CK7, CK8, CK18, CK19, chromogranin-A, and the rat oval cell marker OV-6. The number of more centrally located 'progenitor cells' correlated significantly with the severity of the parenchymal inflammation, while the extent of the ductular reaction correlated significantly with the severity of interface hepatitis. These findings suggest that in chronic viral hepatitis, inflammation plays a role in 'progenitor cell' activation and its topography. In cases with moderate and severe lobular inflammation, 'progenitor cells' were strikingly scattered throughout the parenchyma and surrounded by intermediate hepatocyte-like cells, suggesting their migration into the parenchyma and their differentiation towards the hepatocytic lineage.

Deep intralobular extension of human hepatic 'progenitor cells' correlates with parenchymal inflammation in chronic viral hepatitis: can 'progenitor cells' migrate?

Ductular reaction and putative progenitor cells (or 'progenitor cells'), which are presumed to be the human counterpart of the oval cells in rat liver, have been discerned in various human liver diseases, including chronic viral hepatitis. Since in experimental models of chronic hepatitis the activation of oval cells is correlated with the inflammatory infiltrate, this study investigated whether there is a correlation in chronic viral hepatitis between the number of 'progenitor cells' extending into the lobule and the severity of parenchymal inflammation, on the one hand, and the extent of ductular reaction and the severity of interface hepatitis, on the other hand. Liver biopsies of 55 patients with chronic hepatitis B and/or C were used. The severity of parenchymal inflammation and of interface hepatitis was semiquantitatively graded on a haematoxylin and eosin-stained paraffin section, while the number of 'progenitor cells' and the extent of the ductular reaction were assessed on a serial section stained for cytokeratin (CK) 7. In addition, more extensive phenotyping of 'progenitor cells' was performed on sections from frozen material from five patients, using antibodies against CK7, CK8, CK18, CK19, chromogranin-A, and the rat oval cell marker OV-6. The number of more centrally located 'progenitor cells' correlated significantly with the severity of the parenchymal inflammation, while the extent of the ductular reaction correlated significantly with the severity of interface hepatitis. These findings suggest that in chronic viral hepatitis, inflammation plays a role in 'progenitor cell' activation and its topography. In cases with moderate and severe lobular inflammation, 'progenitor cells' were strikingly scattered throughout the parenchyma and surrounded by intermediate hepatocyte-like cells, suggesting their migration into the parenchyma and their differentiation towards the hepatocytic lineage.

Kinetics of expression of connective tissue growth factor gene during liver regeneration after partial hepatectomy and D-galactosamine-induced liver injury in rats

Connective tissue growth factor (CTGF) is up-regulated by TGF-beta1 during wound healing. The present study examined the expression of CTGF during regeneration after 70% partial hepatectomy (PH) or d-galactosamine (GalN)-injured liver in rats. CTGF, TGF-beta1, and type I collagen mRNAs were semiquantified by a ribonuclease protection assay. After PH, TGF-beta1 and type I collagen were increased at 2-6 h and at 12-48 h. CTGF increased at 6 h and returned to the control level thereafter. The ribonuclease protection assay of cultured hepatic stellate cells (HSC) and in situ hybridization suggest that the cells express CTGF along sinusoid might be HSCs. After GalN administration, CTGF increased at 2-96 h with a shoulder peak at 6-12 h followed by a main peak at 24 h. TGF-beta1 and type I collagen were up-regulated with kinetics similar to those of CTGF. The different kinetics between PH and GalN regenerations indicate that regulation of CTGF in the two processes is different. Higher TGF-beta1 expression after inflammatory/necrotic process in the GalN regeneration may caused the prolonged CTGF expression.

The immunohistochemical phenotype of dysplastic foci in human liver: correlation with putative progenitor cells

BACKGROUND/AIMS

In previous studies we found strong evidence for the existence and activation in human liver of putative progenitor cells resembling oval cells in rat liver. In view of the known role of rat oval cells in regeneration and hepatocarcinogenesis, we investigated a possible correlation between human putative progenitor cells and different types of dysplastic foci.

METHODS

We determined the immunohistochemical phenotype of dysplastic foci found in 20 cirrhotic liver explants of various etiology, using specific antibodies against hepatocyte-type cytokeratin (CK) 8 and CK18, bile duct-type CK7 and CK19, chromogranin-A (chrom-A) and rat oval cell marker OV-6.

RESULTS

All 12 foci of large cell dysplasia had a phenotype similar to that of surrounding parenchyma. Oncocytic foci showed a strong cytoplasmic staining for CK7. Three out of six of these foci contained "progenitor cells", which are small cells immunoreactive for CK18, CK7, CK19, OV-6, chrom-A and stained more intensely for CK8 than surrounding hepatocytes. Four out of eight glycogen-storing foci contained CK7-positive intermediate hepatocyte-like cells and "progenitor cells". Sixteen out of 29 small cell dysplastic foci consisted of "progenitor cells" and intermediate hepatocyte-like cells which were immunoreactive for CK7, CK18, OV-6, chrom-A and showed a stronger cytoplasmic positivity for CK8 than surrounding hepatocytes.

CONCLUSIONS

Foci of large cell dysplasia show no correlation with putative progenitor cells. Half of the oncocytic and glycogen-storing foci contain "progenitor cells", while more than half of the foci of small cell dysplasia consist of small cells with the same immunohistochemical phenotype as putative progenitor cells and intermediate hepatocyte-like cells, suggesting that differentiating putative progenitor cells can give rise to foci of small cell dysplasia.

Acute liver failure: targeted artificial and hepatocyte-based support of liver regeneration and reversal of multiorgan failure

Acute liver failure (ALF) still represents a major therapeutic challenge for hepatologists due to its high mortality rate as a result of multiorgan failure. Although emergency orthotopic liver transplantation represents a major advance in the management of selected patients, it is not applicable to all candidates due to limited organ availability. Therefore, new therapeutic options should be developed to bridge selected patients to transplantation or to treat patients not candidates for liver transplantation. Although new techniques for cell culture and perfusion have resulted in a number of promising devices for the provision of temporary liver support in acute liver failure, their clinical efficacy is as yet uncertain. Controlled trials on a multi-centre basis in well-defined patient groups and with standardised outcome measures, including the extent to which treatment influences cell damage and regeneration and prevents or reverses multiorgan failure, will be essential to properly evaluate the clinical value of current and evolving artificial and bioartificial devices. The same considerations must also apply to the assessment of therapeutic efficacy of hepatocyte transplantation. A better understanding of mechanisms responsible for the development of liver cell death, along with cellular and molecular mechanisms allowing surviving cells to proliferate in a hostile environment, will be required if a more targeted therapeutic approach to decreasing hepatocellular injury and enhancing liver regeneration is to be achieved. Whether extracorporeal devices or the transplantation of primary hepatocytes, stem cells or cells genetically engineered to over-express key metabolic functions, a proliferative phenotype and/or cytoprotective pathways will be best suited to meeting these demanding challenges remains to be determined.

Partial hepatectomy and bile duct ligation in rainbow trout (Oncorhynchus mykiss): histologic, immunohistochemical and enzyme histochemical characterization of hepatic regeneration and biliary hyperplasia

Hepatic regeneration following partial hepatectomy (PH) and biliary hyperplasia subsequent to bile duct ligation (BDL) were characterized in rainbow trout (Oncorhynchus mykiss) by light microscopy using routine and special (immunohistochemical and enzyme histochemical) stains. Both PH and BDL involved initial hypertrophy and hyperplasia of bile preductular epithelial cells (BPDECs). BPDECs are small oval cells that form junctional complexes with hepatocytes and bile ductular cells and are commonly found in hepatic tubules of teleost liver. Proliferating BPDECs transitioned through intermediate cell types before final differentiation into large basophilic hepatocytes (following PH) or biliary epithelial cells (after BDL). Normal BPDECs and hepatocytes were both negative for cytokeratin intermediate filaments in control fish when screened with the monoclonal antibody AE1/AE3. In contrast, hyperplastic BPDECs and their progeny (intermediate cells, immature hepatocytes, ductal epithelial cells) were all strongly cytokeratin positive. Cytokeratin expression was transient in newly differentiated hepatocytes (expression decreased as hepatocytes acquired characteristics consistent with full differentiation) but was permanent in biliary epithelial cells (expression was very strong in large mature ducts). BPDECs, intermediate cells, and immature ductal cells were also strongly positive for alkaline phosphatase following BDL. Chronology of histologic events and cytokeratin and enzyme expression all support the hypothesis that BPDECs possess the capacity to differentiate into either hepatocytes or biliary epithelial cells. Thus, BPDECs may be the teleost equivalent of a bipolar hepatic stem cell in mammals.

Fulminant hepatic failure

In recent years, considerable progress has been made in developing specific and supportive medical measures that have improved prognosis in FHF. Although new techniques for cell culture and perfusion have also resulted in a number of promising devices for the provision of temporary liver support, their clinical efficacy is as yet uncertain. Controlled multicenter trials in well-defined patient groups and with standardized outcome measures will be essential to evaluate the clinical value of these devices properly. The same considerations must also apply in assessing the efficacy of hepatocyte transplantation in FHF. A better understanding of mechanisms responsible for liver cell death and multiorgan failure, and the development of strategies to enhance liver regeneration may, in the future, allow a more targeted approach to therapy.

The canals of Hering and hepatic stem cells in humans

Small, extraportal, hepatic parenchymal cells, positive for biliary-type cytokeratins, may represent hepatic stem cells, canals of Hering (CoH), and/or ductal plate remnants. We evaluated these cells 3 dimensionally in normal human liver and massive necrosis. Tissues from normal human livers and from 1 liver with acetaminophen-induced massive necrosis were serially sectioned, immunostained for cytokeratin 19 (CK19), and sequentially photographed. Images were examined to determine 3-dimensional relationships among CK19-positive cells. Immunostains for other hepatocyte and progenitor cell markers were examined. In normal livers, intraparenchymal CK19-positive cells lined up as linear arrays in sequential levels. One hundred of 106 (94.3%) defined, complete arrays within levels examined, most having 1 terminus at a bile duct, the other in the lobule, beyond the limiting plate. In massive necrosis, there were 767 individual CK19-positive cells or clusters around a single portal tract, 747 (97.4%) of which were spatially related forming arborizing networks connected to the interlobular bile duct by single tributaries. C-kit was positive in normal CoH. CK19 co-expressed with HepPar1, c-kit, and alpha-fetoprotein (AFP) in parenchymal cells in massive necrosis. Small, extraportal, biliary-type parenchymal cells represent cross-sections of the CoH that radiate from the portal tract, usually extending past the limiting plate into the proximate third of the hepatic lobule. The 3-dimensional structure of ductular reactions in massive necrosis suggests that these reactions are proliferations of the cells lining the CoH. Therefore, the CoH consist of, or harbor, facultative hepatic stem cells in humans.

Infantile liver giant cells: immunohistological study of their proliferative state and possible mechanisms of formation

The mechanism of liver giant cell formation is not clarified. Some authors consider the giant cells regenerative, others, degenerative. Paraffin sections of 10 archival cases of idiopathic neonatal hepatitis (INH), 8 of extrahepatic biliary atresia (EHBA), and 5 normal liver samples were immunostained with two well-characterized cell proliferation markers: anti-PCNA monoclonal antibody (MAb) (clone PC-10) and MAb MIB-1, which detects Ki-67, a nuclear proliferation-related antigen. In addition, polyclonal antibody to carcinoembryonic antigen (CEA) was used to identify remnants of canalicular, therefore hepatocytic, membranes in giant cells. Quantitative analysis of immunostaining was done by estimating PCNA and Ki-67 indices separately in giant cells and in nongiant hepatocytes. In normal samples, mean PCNA and Ki-67 indices were 1. 22% and 0.74%, respectively. In the cases of INH and EHBA, only a small minority of giant cells showed PCNA or Ki-67 staining limited to occasional peripherally located nuclei. PCNA and Ki-67 indices were significantly higher in the non-giant cell compartment. CEA staining was seen only in rare giant cells as centrally located canalicular remnants bordered by polarized nuclei, suggesting that they had been formed from rosettes through dissolution of cell membranes. Other giant cells shared CEA-labeled canalicular membranes with mononuclear hepatocytes in rosettes. These findings indicate that the giant cells in INH and EHBA are not regenerative cells, they are not formed by amitotic division of nuclei in syncytia, and that fusion of rosette-forming hepatocytes is a possible mechanism of their formation.

Wound healing in the liver with particular reference to stem cells

The efficiency of liver regeneration in response to the loss of hepatocytes is widely acknowledged, and this is usually accomplished by the triggering of normally proliferatively quiescent hepatocytes into the cell cycle. However, when regeneration is defective, tortuous ductular structures, initially continuous with the biliary tree, proliferate and migrate into the surrounding hepatocyte parenchyma. In humans, these biliary cells have variously been referred to as ductular structures, neoductules and neocholangioles, and have been observed in many forms of chronic liver disease, including cancer. In experimental animals, similar ductal cells are usually called oval cells, and their association with impaired regeneration has led to the conclusion that they are the progeny of facultative stem cells. Oval cells are of considerable biological interest as they may represent a target population for hepatic carcinogens, and they may also be useful vehicles for ex vivo gene therapy for the correction of inborn errors of metabolism. This review proposes that the liver harbours stem cells that are located in the biliary epithelium, that oval cells are the progeny of these stem cells, and that these cells can undergo massive expansion in their numbers before differentiating into hepatocytes. This is a conditional process that only occurs when the regenerative capacity of hepatocytes is overwhelmed, and thus, unlike the intestinal epithelium, the liver is not behaving as a classical, continually renewing, stem cell-fed lineage. We focus on the biliary network, not merely as a conduit for bile, but also as a cell compartment with the ability to proliferate under appropriate conditions and give rise to fully differentiated hepatocytes and other cell types.

Plasma levels and hepatic mRNA expression of transforming growth factor-beta1 in patients with fulminant hepatic failure

BACKGROUND/AIMS

Transforming growth factor-beta1 is an important cytokine involved in cell growth and inflammation which has been shown to be inhibitory to hepatic DNA synthesis. The aim of this study was to investigate the plasma levels and hepatic mRNA expression of transforming growth factor-beta1 in patients with fulminant hepatic failure in whom liver regeneration may be impaired.

METHODS

Plasma levels of transforming growth factor-beta1 and human hepatocyte growth factor were measured in 57 fulminant hepatic failure patients and 20 healthy volunteers by ELISA. Northern blot analysis of transforming growth factor-beta1 and H3 histone, a marker for liver proliferation, was performed in liver tissue of 14 fulminant hepatic failure patients.

RESULTS

The plasma levels of total transforming growth factor-beta1 in fulminant hepatic failure patients on admission (median 38.8 ng/ml, range 8.4-108 ng/ml) were significantly higher than those in control subjects (23.0 ng/ml, 8.5-34.9 ng/ml, p<0.001). Significantly higher levels were observed in non-A, non-B hepatitis patients (57.9 ng/ml, 38.8-108 ng/ml, n=10, p<0.001) compared to patients with paracetamol overdose (37.1 ng/ml, 8.4-72.5 ng/ml, n=47). In contrast, the plasma levels of free transforming growth factor beta1 were greater in paracetamol overdose (623 pg/ml, 46.7-1241 pg/ml, n=21) than in non-A, non-B hepatitis (131 pg/ml, 77.2-254 pg/ml, n=9), with both being higher than control (72.3 pg/ml, 28.7-108, n=7, p<0.001). The plasma levels of human hepatocyte growth factor in patients with paracetamol overdose (7.04 ng/ml, 1.00-62.4 ng/ml) were significantly higher than those in patients with non-A, non-B hepatitis (4.48 ng/ml, 0.74-9.10 ng/ml, p<0.05). Northern blots showed increased mRNA expression of transforming growth factor-beta1 in paracetamol-overdose patients (n=8, p<0.05), but not in patients with non-A non-B hepatitis (n=6), compared to controls (n=4).

CONCLUSIONS

The increased circulating plasma TGF-beta1 in FHF may be part of the tissue repair process in fulminant hepatic failure. In patients with non-A, non-B hepatitis, the increased total transforming growth factor-beta1 together with a less elevated hepatocyte growth factor could be related to impaired liver regeneration in this group.

The apoptosis protector, bcl-2 protein, is downregulated in bile duct epithelial cells of human liver allografts

BACKGROUND/AIMS

Apoptosis of bile duct cells occurs in hepatic allografts and is correlated with acute rejection. bcl-2 protein counteracts apoptosis and prolongs cell survival. We therefore tested the expression of bcl-2 protein in bile ducts of liver grafts in comparison with those of liver cirrhosis.

METHODS

115 biopsies from 17 liver allografts and 47 biopsies of liver cirrhosis were analyzed and compared with 22 normal controls and with biopsies from patients with primary sclerosing cholangitis or primary biliary cirrhosis. bcl-2 protein and PCNA (proliferating cell nuclear antigen) expression was assessed using immunohistochemistry, and apoptosis was analyzed employing in situ DNA end-labeling.

RESULTS

A high apoptotic rate was detected in bile duct cells of allograft biopsies. In contrast to controls, bile duct cells of allografts and liver cirrhosis had high proliferative activity (mean PCNA labeling index: 1.0% vs. 40.7% and 18.6%, respectively). In liver grafts, bcl-2 protein positivity of bile duct and ductular cells was found in 3.6% and 4.4% of sections, respectively, and in cirrhosis in 44% and 79%, respectively (allografts vs. cirrhosis p<0.01). In controls, only one biopsy was bcl-2 positive.

CONCLUSIONS

Whereas increased proliferative activity of small bile ducts and ductules in cirrhosis is associated with a high degree of bcl-2 expression, bile duct and ductular cells in liver grafts have a very low bcl-2 protein reactivity, even though their proliferative activity is high. These findings suggest that downregulation of bcl-2 expression in allograft bile duct cells might play a role in the increased apoptosis of these cells in acute rejection.

Reactive biliary epithelium: the product of a pluripotential stem cell compartment?

Liver parenchymal cells (hepatocytes) have a low rate of turnover, but can nevertheless mount a rapid and efficient regenerative response. However, in some cases of extreme hepatotoxicity hepatocyte proliferation is restricted or even abolished, and instead biliary epithelial cells, commonly referred to as ductular oval cells, migrate into the periportal and midzonal parenchyma. Initially these cells behave as authentic biliary epithelium with expression of the biliary cytokeratin intermediate filaments, but then show hepatocytic traits such as alpha fetoprotein and albumin synthesis. Thereafter these biliary ducts rapidly vanish to be replaced by either small hepatocytes or intestinal-type cells. The proliferation and differentiation of oval cells is probably strongly influenced by paracrine signalling from liver stellate cells. Oval cells appear to be the progeny of facultative pluripotential stem cells which have the lineage potential of uncommitted gastrointestinal stem cells; these stem cells are likely to be located in the cholangioles and small interlobular bile ducts. Oval cells thus constitute an important reserve compartment for hepatocytes when hepatocyte regeneration is compromised.

Increased expression of proliferating cell nuclear antigen in liver allograft rejection

Detection of proliferating cell nuclear antigen is useful for the study of proliferative activity of neoplastic and non-neoplastic lymphoid, parenchymal, and mesenchymal cells. Allograft rejection is associated with the recruitment of circulating cells and their proliferation in the graft. The intrahepatic expression of proliferating cell nuclear antigen on paraffin-embedded liver biopsy specimens (n = 110 from 32 patients) was examined by an avidin-biotin peroxidase method using a monoclonal antibody to proliferating cell nuclear antigen. The percentage of positive nuclei was determined in hepatocytes, biliary epithelium, and lymphocytes. There were four histologic groups: 1, moderate-to-severe rejection (n = 19); 2, mild rejection (n = 28); 3, nonspecific inflammation (n = 45); and 4, donor livers (n = 18). The percentage of positive nuclei was higher in group 1 compared to group 2 (hepatocytes p = 0.01; biliary epithelium p = 0.0007; lymphocytes p = 0.0001), to group 3 (hepatocytes p = 0.0002; biliary epithelium p = 0.0001; lymphocytes p = 0.0001), and to group 4 (for all three locations p < 0.0001). When group 2 was compared to group 3 the results were significant for biliary epithelium (p = 0.0001) and lymphocytes (p = 0.0001), but not for hepatocytes (p = 0.07). We conclude that proliferating cell nuclear antigen expression, especially in lymphocytes, correlates with the severity of histologic rejection. Proliferating cell nuclear antigen expression may be useful in predicting the progression and response to different antirejection therapies.

Pluripotential liver stem cells: facultative stem cells located in the biliary tree

The ability of the liver to regenerate after parenchymal damage is usually accomplished by the ephemeral entry of normally proliferatively quiescent (G0) hepatocytes into the cell cycle. However, when hepatocyte regeneration is defective, arborizing ductules which are continuous with the biliary tree, proliferate and migrate into the surrounding parenchyma. In man these biliary cells have variously been referred to as ductular structures, neoductules and neocholangioles, and have been observed in many forms of chronic liver disease, including cancer. In experimental animals similar ductal cells are usually called oval cells, and their association with defective regeneration has led to the belief that these cells represent a progenitor cell population. Oval cells are thought to take over the burden of regenerative growth after substantial hepatocyte loss, suggesting that they are the progeny of facultative stem cells. The liver is not, however, generally considered as a stem cell-fed hierarchy, although this is disputed by others. Despite this, the subject of oval cells has aroused intense interest as these cells may represent a target population for hepatic carcinogens, and they may be useful vehicles for ex vivo gene therapy. This review proposes that the liver does harbour stem cells which are located throughout the biliary epithelium, and that oval cells represent the progeny of these stem cells and function as an amplification compartment for the generation of 'new' hepatocytes. This is a conditional process which only occurs when the regenerative capacity of hepatocytes is overwhelmed and thus, unlike the intestinal epithelium, the liver is not behaving as a classical continually renewing stem cell-fed lineage. We focus on the biliary network, not merely as a conduit for bile, but also as a cell compartment with the potential to proliferate under appropriate conditions and give rise to fully differentiated hepatocytes and other cell types.

Subcellular localization of hepatitis B core antigen in relation to hepatocyte regeneration in chronic hepatitis B

BACKGROUND & AIMS

To test whether the dominant cytoplasmic expression of hepatitis B core antigen (HBcAg) in active chronic hepatitis B is secondary to liver damage and regeneration, the relationship between subcellular localization of HBcAg, liver inflammatory activity, and hepatocyte regeneration in chronic hepatitis B was studied.

METHODS

Correlation of the clinical and laboratory data with the topographical distribution of HBcAg was studied in 30 patients. The subcellular localization of HBcAg in relation to hepatocyte cell cycles was studied by double immunostaining of HBcAg and proliferating cell nuclear antigen.

RESULTS

Patients with predominant cytoplasmic HBcAg had significantly higher levels of biochemical and histological activities and proliferating cell nuclear antigen expression than patients with predominant nuclear HBcAg. The levels of proliferating cell nuclear antigen expression correlated positively with biochemical and histological activities and degrees of cytoplasmic HBcAg expression but negatively with degrees of nuclear HbcAg expression. Proliferating cell nuclear antigen expression was shown in 49% of hepatocytes with cytoplasmic HBcAg but in only 2% of hepatocytes with nuclear HBcAg.

CONCLUSIONS

These findings suggested that, following liver damage, the regeneration of surviving hepatocytes might cause the shift of intracellular HBcAg from nucleus to cytoplasm. As a result, the extent of nuclear HBcAg expression reduces with concomitant increase in cytoplasmic HBcAg expression.

The overexpression of proliferating cell nuclear antigen in biliary cirrhosis in the rat and its relationship with epidermal growth factor receptor

Chronic bile duct obstruction in the rat leads to biliary cirrhosis but maintained hepatocellular mass. We have previously demonstrated translocation of epidermal growth factor receptor to nuclei. It remained unclear, however, whether this was due to hepatocyte proliferation and/or altered handling of epidermal growth factor receptor. Therefore, in the present investigation we stereologically estimated expression of proliferating cell nuclear antigen, a marker of the S phase of teh cell cycle at 1, 2, 3, 7, 14, 21 and 28 days after bile duct ligation. Proliferating cell nuclear antigen positive hepatocytes averaged 2.1 +/- 3.6% in sham-operated control animals. This increased to 20.7 +/- 6.4, 26.8 +/- 18.7, 31.3 +/- 23.9, 42.3 +/- 16.6 and 24.7 +/- 28.0% 3, 7, 14, 21 and 28 days after bile duct ligation, respectively (p<0.005 by ANOVA). This was correlated with the number of epidermal growth factor receptor positive nuclei (rs = 0.737) and inversely with the maximal binding capacity of epidermal growth factor to a crude plasma membrane fraction (rs = 0.697) reported previously. We conclude that bile duct ligation in the rat induces a significant hepatocellular proliferation as assessed by proliferating cell nuclear antigen expression and that this process could, at least in part, be related to increased nuclear expression of the epidermal growth factor receptor.

Ductular structures in acute hepatitis with panacinar necrosis

The development of ductular structures in acute hepatitis with panacinar necrosis was studied in 15 cases of fulminant hepatitis with variable clinical duration, using immunohistochemical markers. The immunophenotype of ductular structures was assessed by the expression of two bile duct epithelium determinants, wide spectrum cytokeratin and epithelial membrane antigen (EMA), and by their glycoconjugate expression using the specific binding lectins Dolichos biflorus agglutinin (DBA) and soybean agglutinin (SBA). Ductular structures showed a predilective, but not a strictly selective location in acinar zone 1 and at the periphery of newly formed parenchymal nodules. All were positive for keratin, while EMA and the lectins were identified less frequently. Cytokeratin expression was additionally observed in hepatic cells with no other phenotypic alteration: this occurred along isolated hepatic cords, within parenchymal remnants, in the spared parenchyma in acinar zone 1 and occasionally at the periphery of parenchymal nodules. The presence of cytokeratin expression in liver cell plates in association with intermediate morphological stages of tubular remodelling speaks in favour of biliary metaplasia of hepatocytes. This process may represent a phenotypic-functional accommodation of hepatocytes to an altered microenvironment, due to loss of parenchymal integrity. During the phenotypic shift, altered cytokeratin expression appears as one of the earliest biliary features, while EMA and the expression of glycoconjugates represent maturation markers.

Immunohistochemical detection of bcl-2 protein in liver lesions: bcl-2 protein is expressed in hepatocellular carcinomas but not in liver cell dysplasia

A proto-oncogene, bcl-2, encodes a protein that inhibits programmed cell death (apoptosis) and may play a role in cell and tissue differentiation. As bcl-2 appears to be involved in the turn-over of stem or precursor cells, it is thought to be operational in carcinogenesis pathways. However, apart from certain lymphomas, only limited data are available on the frequency of its expression in solid tumors. Immunohistochemical analysis with an antibody specific for bcl-2 protein was used to detect the protein in hepatocellular carcinomas and in one of the putative precursor lesions, liver cell dysplasia. We detected bcl-2 protein in 5 of 37 hepatocellular carcinomas. Immunoreactivity was not related to type, grade, or extent of PCNA staining of the tumours. No bcl-2 protein staining was observed in three types of liver cell dysplasia. Thus, bcl-2 is abnormally expressed in some hepatocellular carcinomas but not in potential tumour precursor cells.

Immunohistochemical analysis of p53 protein overexpression in liver cell dysplasia and in hepatocellular carcinoma

We analysed p53 protein immunoreactivity in hepatocellular carcinomas (HCCs) and in liver cell dysplasia (LCD) of patients from an area in Northern China, using five anti-p53 protein antibodies recognizing different epitopes of the protein. In HCCs, the overall prevalence of p53 protein immunoreactivity was 78.3%. However, prevalence was strongly influenced by the type of antibody used, ranging from 67.5% for antibody PAb-1801 to only 10.8% for antibodies PAb-421 and DO-7. p53 protein immunoreactivity was not related to type or grade of HCC. In contrast to former reports, p53 protein staining was restricted to nuclei only when using the CM-1 antibody, whereas two other antibodies yielded both, nuclear and cytoplasmic or membrane staining, and no nuclear staining was observed with antibodies PAb-421 and DO-7, the latter two, however, demonstrating cytoplasmic and membrane staining. For LCD, three subtypes were morphologically and karyometrically defined. Nuclei of some LCD cells were p53 immunoreactive, but positivity was restricted to the small cell variant of LCD. Positivity was different for cirrhosis with or without associated HCC, amounting to 18.9% in the former and 39.4% in the latter. Interestingly, p53 protein immunoreactivity also occurred in a set of small hepatocytes not showing the typical feature of LCD and therefore classified as simple regenerating liver cells.

Immunohistochemical analysis of S-phase cells in normal human and rat liver by PC10 monoclonal antibody

The expression of proliferating cell nuclear antigen (PCNA) was examined in normal human and rat liver fixed in either formaldehyde or methanol, and was compared with the incorporation of bromodeoxyuridine (BrdU) in S-phase cells. Codistribution of PCNA and BrdU was assessed in rat liver by double immunohistochemical staining using PC10 and anti-BrdU monoclonal antibodies to identify labelled nuclei of parenchymal and sinusoidal cells. In formaldehyde-fixed human biopsies (n = 13) PCNA-labelling index (PCNA LI) was 0.43 +/- 0.24% (mean +/- SEM) for hepatocytes and 0.09 +/- 0.03% for sinusoidal cells. A great interspecimen variability was observed and a preferential lobular distribution was not evident. In methanol-fixed human liver (n = 8) the immunostaining was strong. PCNA LI was 0.05 +/- 0.01% for hepatocytes and 0.14 +/- 0.01% for sinusoidal cells. 75% of labelled hepatocytes and 60% of labelled sinusoidal cells were found in acinar zone 1. In formaldehyde-fixed rat liver (n = 10) a weak nuclear staining and a great interspecimen variability were evident. LI was 0.13 +/- 0.07% for hepatocytes and 0.40 +/- 0.21% for sinusoidal cells without preferential acinar distribution. In methanol-fixed rat liver (n = 10), PCNA LI was 0.14 +/- 0.02% for hepatocytes and 0.40 +/- 0.04% for sinusoidal cells. 64% of labelled hepatocytes and 50% of labelled sinusoidal cells were found in zone 1. Only on methanol-fixed material did double immunohistochemistry show an almost complete overlap of BrdU and PCNA labelling. The PCNA LIs and the zonal distribution of labelled nuclei as obtained in methanol-fixed material are in keeping with previous reports using 3H-thymidine (3H-Thy) incorporation, suggesting that PCNA immunostaining represents a valid alternative to 3H-Thy.(ABSTRACT TRUNCATED AT 250 WORDS)

Immunohistochemical and ultrastructural study of hepatic sinusoidal linings during dichloropropanol-induced acute hepatic necrosis

An acute phase of severe hepatic necrosis induced by dichloropropanol was examined immunohistochemically and ultrastructurally, in order to study chronological changes of sinusoidal morphology during acute hepatic injury. Male Wistar rats were injected with 1,3-dichloro-2-propanol (DC2P) and sacrificed at various intervals after the injections. DC2P-injected rats showed zonal necrosis of the centrilobular space with a peak from 24 to 48 h after the injection. Destruction of sinusoidal linings appeared at 4 h, and was gradually aggravated along the advancing hepatocytic necrosis. Monocytic influx into the necrotic areas was initiated at 6 h. At 48 h, collapsed centrilobular spaces showed a loss of most sinusoidal structures with active phagocytosis of macrophages, proliferation of perisinusoidal cells, and accumulation of collagen fibrils. At 72 h, there were many regenerating sinusoidal structures, which were composed of rather thick and less fenestrated endothelium and underlying multilayered processes of mesenchymal cells, along the regenerating hepatocytes. In these areas, occasional junctions between regenerating hepatocytes and mesenchymal cells were seen. Reconstruction of sinusoidal linings was closely related to the hepatocytic regeneration, and a hepatocytic-mesenchymal interaction might participate in this morphodynamic course of the sinusoidal reconstruction.

Proliferating cell nuclear antigen (PCNA) expression in regenerating rat liver after partial hepatectomy

Proliferating cell nuclear antigen (PCNA) is a nuclear protein maximally elevated in the S phase of proliferating and transformed cells and is recognized by the monoclonal antibody PC-10 in paraffin tissue sections. The liver regenerative process after partial hepatectomy in rats was estimated with the in vivo incorporation of [3H]thymidine into liver DNA and the liver thymidine kinase activity. The expression of PCNA in rat liver after partial hepatectomy was performed by immunohistochemical staining with PC-10 in paraffin embedded tissues, at different time intervals up to 240 hr. Proliferating cell nuclear antigen expression, [3H]thymidine incorporation into DNA, and liver thymidine kinase activity exhibited marked oscillations during the liver regenerative process. A close relationship was demonstrated among DNA synthesis, thymidine kinase activity, and PC-10 score. Our results suggest that PC-10 monoclonal antibody may be used as a worthwhile proliferation index in the evaluation of the rate of liver regeneration in rats.

Increased risk of hepatocellular carcinoma development in patients with cirrhosis and with high hepatocellular proliferation

The immunohistochemical determination of the accessory protein of DNA-polymerase delta (PCNA), a marker of an early S-phase of the cell cycle, was used to evaluate cell proliferation retrospectively in formalin-fixed, paraffin-embedded liver biopsy sections in a group of patients with cirrhosis of similar age and duration of follow up, and with no evidence of hepatocellular carcinoma (41), including 17 patients with and 24 without hepatocellular carcinoma appearance during follow up. Proliferation was expressed as total (PCNA-TOT) and strongly (PCNA-STRO) positive nuclei per 1000 hepatocytes. The presence of dysplasia was also recorded. Histological findings and biochemical data, at the time of liver biopsy, were compared in the two groups. While total PCNA positivities were not significantly different in the two groups, strong reactivity was significantly higher in patients who eventually developed hepato-cellular carcinoma (median 0.7 vs 2.6). Univariate analysis of histological and biochemical data at the time of biopsy, followed by a stepwise regression study, showed that the significant parameters for a time-dependent disease-free state were, in decreasing order: cholesterol, PCNA-STRO, PCNA-TOT and alpha foeto-protein. Other clinical, biochemical and histological parameters, including dysplasia, provided no further information. From these data, hepatocellular proliferation can be evaluated in patients with cirrhosis with a currently available technique. Patients with high cell proliferation are at increased risk of developing hepatocellular carcinoma and may require differentiated follow up.

Expression of hepatocyte growth factor mRNA during oval cell activation in the rat liver

The customary wave of hepatocyte regeneration which occurs in the rat liver after two-thirds partial hepatectomy can be abolished by oral administration of the carcinogen 2-acetylaminofluorene. Instead, regeneration is achieved through the proliferation and differentiation of potential stem cells (oval cells) which appear to emanate from the portal space. Ultrastructural studies have illustrated the undifferentiated nature of these cells in the first 3 days after resection, but very rapidly they acquire features of small hepatocytes or biliary epithelia. Oval cell progeny can form either cohesive columns of cells within sinusoids which may later differentiate into new hepatic plates, or single cells that can insinuate within existing plates. Using a 35S antisense riboprobe to hepatocyte growth factor (HGF) mRNA, the synthesis of HGF mRNA was observed in sinusoid-lining cells. There were few HGF mRNA-expressing cells in the liver removed at resection, but numbers steadily increased in the remnant over the next 7 days. In particular, an almost nine-fold increase in the density of HGF mRNA-producing cells occurred in the periportal areas, resulting in approximately double the density present within the centrilobular parenchyma. The superabundance of HGF-producing cells in the immediate vicinity of oval cell proliferation and differentiation strongly suggests that this growth factor is involved in all aspects of stem cell behaviour--proliferation, migration, and differentiation, through a paracrine mechanism.