Modulation of extracellular matrix proteins in rat liver during development

Clonal Expansion of Hepatic Stem/Progenitor Cells following Flow Cytometric Cell Sorting

Although hepatic stem cells are believed to exist and play a critical role in developing and regenerating liver, little is known about their cell surface specificity or differentiation capabilities. To make prospective studies of hepatic stem cells possible, we established an in vitro culture system for identification and characterization of hepatic stem/progenitor cells. By combining this culture system with fluorescence activated cell sorting (FACS), a population of cells that were capable of forming large colonies and providing their descendants for relative longer period was isolated from fetal mouse livers. These data suggest that hepatic stem/progenitor cells with high proliferative potential are existent in the developing mouse liver, and that they are enriched by using flow cytometry.

Histological changes in the liver of fetuses of pregnant rats following citalopram administration

OBJECTIVE

Depression is a dilapidating disorder, which may occur during pregnancy. Citalopram is an antidepressant drug often prescribed to pregnant women. The purpose of the present study is to determine whether maternal administration of citalopram affects fetal liver histology.

MATERIALS AND METHODS

Pregnant Wistar albino rats were treated with citalopram (10 or 20 mg/kg/day). A control group received no treatment. Rat fetal liver samples were obtained on day 18 of gestation and evaluated morphologically and histologically.

RESULTS

Statistical evaluation of data showed that there were no differences in liver weight and relative liver weight between control and citalopram treatment groups. Liver histology changes (such as increases in the number of Kupffer cells and lymphocytes) were seen in the fetuses of the group receiving a high dose of citalopram during gestation. Degeneration of hepatocytes was not seen and the megakaryocyte number did not change significantly in the citalopram treated groups.

CONCLUSION

This study showed that citalopram administration during gestation may have some adverse effects on the phagocytic cell population in the fetal liver of rats.

Three-dimensional perfusion bioreactor culture supports differentiation of human fetal liver cells

The ability of human fetal liver cells to survive, expand, and form functional tissue in vitro is of high interest for the development of bioartificial extracorporeal liver support systems, liver cell transplantation therapies, and pharmacologic models. Conventional static two-dimensional culture models seem to be inadequate tools. We focus on dynamic three-dimensional perfusion technologies and developed a scaled-down bioreactor, providing decentralized mass exchange with integral oxygenation. Human fetal liver cells were embedded in a hyaluronan hydrogel within the capillary system to mimic an in vivo matrix and perfusion environment. Metabolic performance was monitored daily, including glucose consumption, lactate dehydrogenase activity, and secretion of alpha-fetoprotein and albumin. At culture termination cells were analyzed for proliferation and liver-specific lineage-dependent cytochrome P450 (CYP3A4/3A7) gene expression. Occurrence of hepatic differentiation in bioreactor cultures was demonstrated by a strong increase in CYP3A4/3A7 gene expression ratio, lower alpha-fetoprotein, and higher albumin secretion than in conventional Petri dish controls. Cells in bioreactors formed three-dimensional structures. Viability of cells was higher in bioreactors than in control cultures. In conclusion, the culture model implementing three-dimensionality, constant perfusion, and integral oxygenation in combination with a hyaluronan hydrogel provides superior conditions for liver cell survival and differentiation compared to conventional culture.

Regulation of hepatocyte cell cycle progression and differentiation by type I collagen structure

Cell behavior is strongly influenced by the extracellular matrix (ECM) to which cells adhere. Both chemical determinants within ECM molecules and mechanical properties of the ECM network regulate cellular response, including proliferation, differentiation, and apoptosis. Type I collagen is the most abundant ECM protein in the body with a complex structure that can be altered in vivo by proteolysis, cross-linking, and other processes. Because of collagen's complex and dynamic nature, it is important to define the changes in cell response to different collagen structures and its underlying mechanisms. This chapter reviews current knowledge of potential mechanisms by which type I collagen affects cell behavior, and it presents data that elucidate specific intracellular signaling pathways by which changes in type I collagen structure differentially regulate hepatocyte cell cycle progression and differentiation. A network of polymerized fibrillar type I collagen (collagen gel) induces a highly differentiated but growth-arrested phenotype in primary hepatocytes, whereas a film of monomeric collagen adsorbed to a rigid dish promotes cell cycle progression and dedifferentiation. Studies presented here demonstrate that protein kinase A (PKA) activity is significantly elevated in hepatocytes on type I collagen gel relative to collagen film, and inhibition of this elevated PKA activity can promote hepatocyte cell cycle progression on collagen gel. Additional studies are presented that examine changes in hepatocyte cell cycle progression and differentiation in response to increased rigidity of polymerized collagen gel by fiber cross-linking. Potential mechanisms underlying these cellular responses and their implications are discussed.

Histological changes in the liver of fetuses of alcohol-treated pregnant rats

In this study, immunolocalization of tenascin (TN), type IV collagen and histopathological changes in the liver of fetuses of pregnant Wistar albino rats treated with two doses of alcohol (1 and 5 g kg(-1) day(-1)) were determined. The samples of liver obtained from fetuses of rats on day 21 of gestation were evaluated morphologically and fixed for histology and immunohistochemistry. The sections stained with H&E and peroxidase-antiperoxidase (PAP) method for TN and type IV collagen were evaluated and immunohistochemical staining results were examined by the intensity of labelling. Statistical evaluation of data showed that there were no differences in liver weights between the control and calorie control groups; but some differences in relative liver weight between the control and alcohol treatment groups were determined. The changes in the liver histology such as degeneration of the cytoplasm of hepatocytes and increases in the number of megakaryocytes were seen in the fetuses of groups receiving alcohol during pregnancy. Increases in the immunolocalization of TN and type IV collagen in the liver of fetuses of alcohol-receiving rats were also found.

Crucial roles of mesodermal cell lineages in a murine embryonic stem cell-derived in vitro liver organogenesis system

Recent studies in the field of regenerative medicine have exploited the pluripotency of embryonic stem (ES) cells to generate a variety of cell lineages. However, the target has always been only a single lineage, which was isolated from other differentiated cell populations. In the present study, we selected sublines with a high capability for differentiation to contracting cardiomyocytes and also produced germ-line chimeric mice from a parent ES line. We also succeed in establishing embryoid bodies prepared from the ES cells that differentiated into not only hepatocytes but also at least two mesodermal lineages: cardiomyocytes that supported liver development and endothelial cells corresponding to sinusoids. This allowed the development of an in vitro system using murine ES cells that approximated the events of liver development in vivo. The expression of albumin was significantly higher in cardiomyocytes that had arisen in differentiated ES cells than in those that had not. Our in vitro system for liver organogenesis consists of a blood/sinusoid vascular-like network and hepatocyte layers and shows higher levels of hepatic function, such as albumin production and ammonia degradation, than hepatic cell lines and primary cultures of murine adult hepatocytes. This innovative system will lead to the development of second-generation regenerative medicine techniques using ES cells and is expected to be useful for the development of bioartificial liver systems and drug-metabolism assays.

Increased expression of collagenase in the liver induces hepatocyte proliferation with cytoplasmic accumulation of beta-catenin in the rat

BACKGROUND/AIMS

Since the hepatic extracellular matrix is remodeled in liver regeneration, we investigated whether increased collagenase activity in the liver can induce hepatocyte proliferation in vivo.

METHODS

To increase hepatic collagenase activity, human matrix metalloproteinase-1 was delivered to the rat liver by the recombinant adenoviral vector Ad5MMP-1.

RESULTS

Hepatic delivery of Ad5MMP-1 increased the 5-bromo-2-deoxyuridine labeling index and mitotic index in hepatocytes, causing an increase in the dry liver weight; control adenovirus, Ad5LacZ, had minimal effect. Hepatocyte proliferation started approximately 48 h after infection with Ad5MMP-1 and ended after about 2 weeks. The increase in the dry liver weight also returned to baseline after 2 weeks. Transient liver injury by Ad5MMP-1, reflected by increased aspartate and alanine aminotransferase levels, peaked around 1 week, and was associated with hepatocyte apoptosis. Collagenase-induced hepatocyte proliferation was accompanied by cytoplasmic accumulation of beta-catenin and a transient decrease in E-cadherin expression.

CONCLUSIONS

Modification of the hepatic extracellular matrix by collagenase induces transient hepatocyte proliferation in vivo, suggesting that the condition of the hepatic extracellular matrix per se plays a pivotal role in regulating hepatocyte proliferation.

The role of fetal and adult hepatocyte extracellular matrix in the regulation of tissue-specific gene expression in fetal and adult hepatocytes

We explored the effect of extracellular matrix (ECM) produced by fetal and adult hepatocytes on tissue-specific gene expression and proliferation of fetal and adult hepatocytes. Adult hepatocytes ECM strongly induced expression of both albumin and HNF-4 in adult hepatocytes. In contrast, fibroblast ECM reduced the expression of mRNAs for albumin and alpha-fetoprotein in fetal hepatocytes. Adult hepatocytes ECM also increased the activity of liver-specific enzymes of adult hepatocytes (DPP IV and glucose-6-phosphatase) in both fetal and adult hepatocytes, while fetal hepatocyte-derived ECM increased activity of the fetal hepatocyte enzyme GGT in fetal hepatocytes. Fibroblast ECM was inhibitory for the activity of all enzymes assayed. Removal of heparin chains from the various matrices by pretreatment of the ECM with heparinase resulted in reduction of glucose-6-phosphatase and DPP IV in adult hepatocytes. Removal of chondroitin sulfate chains from fetal hepatocyte-derived ECM resulted in loss of induction of GGT in the fetal cells. Fetal hepatocytes proliferated best on adult hepatocyte-derived ECM. Adult hepatocytes showed only modest proliferation on both fetal and adult hepatocytes ECM and their growth was inhibited by fibroblast ECM. In conclusion, adult hepatocyte ECM better supports the expression of adult genes, whereas fetal hepatocyte ECM induced expression of fetal genes. Fibroblast derived-ECM was inhibitory for both proliferation and tissue-specific gene expression in fetal and adult hepatocytes. The data support a role for heparan sulfate being the active element in adult ECM, and chondroitin sulfate being the active element in fetal ECM.

Flow-cytometric separation and enrichment of hepatic progenitor cells in the developing mouse liver

Stem cells responsible for tissue maintenance and repair are found in a number of organs. However, hepatic stem cells assumed to play a key role in liver development and regeneration remain to be well characterized. To address this issue, we set up a culture system in which primitive hepatic progenitor cells formed colonies. By combining this culture system with fluorescence-activated cell sorting (FACS), cells forming colonies containing distinct hepatocytes and cholangiocytes were identified in the fetal mouse liver. These cells express both CD49f and CD29 (alpha6 and beta1 integrin subunits), but do not mark for hematopoietic antigens such as CD45, TER119, and c-Kit. When transplanted into the spleen, these cells migrated to the recipient liver and differentiated into liver parenchymal cells. Our data demonstrate that hepatic progenitor cells are enriched by FACS and suggest approaches to supplanting organ allografting and improving artificial-organ hepatic support.

Changes of integrin expression in rat hepatocarcinogenesis induced by 3’-Me-DAB

AIM: To investigate the expression of integrins in rats liver during 3'-Me-DAB induced hepatocarcinogenesis and to find out the relationship between integrins and liver cancer metastasis.

METHODS: The expressions of integrins α₁, α₂, α₃ and α₅ and epidermal keratin (EK) were observed by immunohistochemical PAP method.

RESULTS: In the normal liver tissues, hepatocytes express integrins α₁ and α₅ and in the bile duct epithlium, EK. In liver cirrhosis, hepatocytes highly express integrins α₁, α₂, α₃ and α₅ and in hyperplastic bile duct epithelium, integrins α₁, α₅ and EK. Expression of integrins α₁, α₂, α₃ and α₅ were obviously decreased in the preneoplastic nodules and primary carcinoma but expressions of integrins α₁ and α₅ in metastasis in the lung and diaphragma were higher than those in primary carcinoma.

CONCLUSION: Integrins α₁ and α₅ may play a major role in chemically induced hepatocarcinogenesis and metastasis in rats.

Coordinated expression of integrin alpha6beta1 and laminin in hepatocellular carcinoma

The interaction between tumor cells and laminin mediated by laminin-binding integrins is critical for tumor invasion and metastasis. The aim of this study was to clarify the altered expression of laminin-binding integrins with the change of laminin deposition in hepatocellular carcinoma (HCC) in comparison with cirrhotic or normal liver by immunohistochemistry. In HCC, hepatoma cells and sinusoidal endothelial cells expressed integrins alpha1beta1, alpha2beta1, alpha3beta1, and alpha6beta1. Integrins alpha1beta1 and alpha6beta1 were detected in a continuous pattern along the sinusoids in accordance with laminin assembly. Integrins alpha2beta1 and alpha3beta1 were detected in a discontinuous pattern at these sites. Integrin alpha6beta4 was not detected. In cirrhotic liver, although integrins alpha1beta1 and alpha6beta1 as well as laminin were detected in a continuous pattern along the sinusoids, integrins alpha2beta1, alpha3beta1, and alpha6beta4 were not detected. In normal liver, although integrin alpha1beta1 was detected in a continuous pattern along the sinusoids, neither integrins alpha2beta1, alpha3beta1, alpha6beta1, alpha6beta4, nor laminin were detected. We have clarified that, of laminin-binding integrins, the localization of integrin alpha6beta1 shows the best correspondence with the localization of laminin. These results suggest that of laminin-binding integrins, integrin alpha6beta1 is very important for cell-laminin interactions in HCC.

Correlation of expression of connexin mRNA isoforms with degree of cellular differentiation

Examination of rat hepatic cell lines has revealed a correlation between the differentiated state of the cells and the gap junctional proteins, or connexins, they express. The cell lines RLC (Gershenson et al, 1970) and FTO.2B (Killary et al, 1984) were examined and compared to primary adult hepatocytes for expression of fetal and adult hepatic antigens under various tissue culture conditions. Maximal expression of fetal antigens was observed in cells grown in serum-supplemented medium, on either tissue culture plastic or type IV collagen. Maximal expression of adult specific antigens was seen in cells grown in a hormonally defined medium containing heparin, on type I or type IV collagen. The cell line RLC strongly expressed fetal antigens, while FTO.2B expressed both fetal and adult antigens. These cell lines and another poorly differentiated hepatic cell line, WB-F344 (Tsao et al., 1984) were used to assess the developmental profile of mRNAs encoding isoforms of gap junctions: connexins 26, 32, and 43. The cell lines each transcribed mRNAs of all three connexins, as determined by transcriptional elongation analysis. By contrast, only certain of the connexin mRNAs could be detected in specific cell lines by Northern analysis: RLC expressed only connexin 43 mRNA; WB-F344 expressed connexin 32 and 43 mRNAs. Selection among the connexin mRNAs appears to occur post-transcriptionally. Culture of the cell lines in hormonally defined medium vs. serum supplemented medium did not affect the patterns of connexin mRNA abundance. When the cell lines were cultured in hormonally defined medium containing heparin, however, the level of connexin mRNAs did vary: Connexin 26 mRNA increased in WB-F344 cells, and connexins 32 and 43 mRNAs increased in FTO.2B, but connexin 43 mRNA decreased in WB-F344 and RLC. The abundance of connexin mRNAs also varied when the cell lines were analyzed at different cell densities: connexin 43 mRNA increased with cell density in RLC and WB-F344, and connexin 26 mRNA peaked at an intermediate density and fell at higher cell densities in WB-F344. The differences in connexin mRNA expression among cell lines characteristic of different stages of hepatic differentiation, and the differences in regulation of connexin mRNAs in the hepatic cell lines, suggest distinct biological roles of the highly homologous proteins. Moreover, connexin gene expression may be a marker of hepatic development: as hepatocytes differentiate the proportions of connexin 43 then 26 mRNAs decrease while that of connexin 32 mRNA increases.

Differentiation of the rat stria vascularis

The differentiation of the rat stria vascularis (SV) was investigated by light- and electron microscopy and by immunocytochemistry. Loss of the basal lamina at the epithelial-mesenchymal interface of SVs as indicated by immunoreactions of laminin and fibronectin induces the formation of vascular feet by basal infoldings of the marginal cells (MCs), and the development of the strial capillaries (SCs) by mesenchymal cells in a manner of vasculogenesis is progressing at the same time. The production of fibronectin in the rough endoplasmic reticulum of mesenchymal cells and the involvement of this glycoprotein in a mechanical linkage between the vasoformative mesenchymal cells and endothelial ones of the SCs are indicated by immunocytochemistry. The plasma membrane of the marginal cells (MCs) begins to show immunoreactions of Na+.K+ ATPase at postnatal day 5 and is conjugated to each other by tight junctions at postnatal day 14. The apical tubules of the differentiating MCs do not seem to be involved in the endocytotic activity but are involved in the plasma membrane supply for the rapid differentiation.

Immunohistochemical study of extracellular matrix in acute galactosamine hepatitis in rats

A single injection of D-galactosamine hydrochloride induces acute self-limiting liver disease in rats that morphologically resembles drug-induced hepatitis in human beings. In this immunohistochemical study we examined the localization and expression of the hepatic extracellular matrix components fibronectin, laminin, collagen type I, collagen type III and collagen type IV and of the cell surface receptors (integrins) for fibronectin and laminin. Sections of liver tissue obtained at intervals of 6, 12, 18, 24, 30, 36, 48 and 72 hr and 7 and 21 days after galactosamine administration were immunostained with a panel of polyclonal monospecific antibodies and studied independently by two of us. Fibronectin was the first extracellular matrix component found to be increased, 12 hr after galactosamine injection, followed by collagen type III, and, in a later phase, collagen type IV, type I and laminin. Increased deposition of extracellular matrix was found in areas with liver cell necrosis and along sinusoids. Extracellular matrix immunoreactivity reached a maximum at 36 to 48 hr and decreased thereafter to preinjury levels 3 wk after galactosamine. Immunostaining for the fibronectin and laminin receptors revealed tissue localization identical to that of their ligands. However, the intensity of staining was opposite of that for the extracellular matrix, with a decrease of immunoreactivity after 24 to 48 hr. The observed sequence of changes in hepatic extracellular matrix proteins after galactosamine injection resembles the repair reaction in other tissues and may reflect the particular function that each carries out during the process of liver healing after toxic injury.

Carcinoma-associated perisinusoidal laminin may signal tumour cell metastasis to the liver

The perisinusoidal space of the liver shows extensive modulation of the extracellular matrix in response to various pathological conditions. We studied perisinusoidal laminin expression immunohistochemically using polyclonal and monoclonal antibodies in 110 human liver specimens obtained at autopsy. In normal adult liver the perisinusoidal spaces contained only minimal amounts of immunoreactive laminin. In 86% of patients dying from cancer with liver metastasis, however, a distinct increase in the amount of perisinusoidal laminin could be demonstrated. The perisinusoidal space also contained laminin in cancer patients without liver metastasis. In 3 cases of leukaemia sinusoids were laminin negative. In cirrhosis and chronic passive congestion there was, as expected, laminin immunoreactivity in the perisinusoidal space. The results obtained using polyclonal antibodies against laminin were confirmed using chain-specific monoclonal antibodies against B2 laminin. In an ex vivo assay, viable tumour cells (Panc-1 and clone A) were found to bind with remarkable specificity to frozen sections of liver tissue containing perisinusoidal laminin as opposed to liver tissues without laminin. We suggest that this perisinusoidal laminin may directly on indirectly mediate tumour cell metastasis to the liver.

Changes in transcripts of basement components during rat liver development: increase in laminin messenger RNAs in the neonatal period

The expression of laminin and type IV collagen messenger RNA in rat liver was investigated in relation to liver development. Levels of messenger RNA for laminin chains A, B1 and B2, and alpha 1 and alpha 2 chains of type IV collagen were studied by Northern-blot and dot-blot analysis. Although the expression of messenger RNAs for laminin B1 and B2 chains was higher in 19-day gestational fetal liver when compared with the adult, the highest level was detected in 15-day newborns. This finding coincides with the final establishment of the mature liver. Laminin A messenger RNA was not detected in the 19-day gestational fetus or in the neonatal period. In contrast, alpha 1-(IV) and alpha 2-(IV) collagen messenger RNAs maintained high levels in the early neonate and then decreased gradually after 15 days. Our findings suggest that during late stages of liver ontogeny the main components of liver basement membrane proteins undergo a significant alteration in their synthesis. The data further suggest that laminin may play a role in the final stages of hepatic differentiation.

Immunopathology of alkaline phosphatase-induced granulomatous hepatitis in rats

Granulomatous inflammation is a specific type of chronic inflammation in which macrophages and T-cell-mediated immunity to the inciting agent play a pivotal role. In the present study, granulomatous hepatitis was induced in rats by the administration of a single intravenous dose of porcine intestinal alkaline phosphatase. The cellular composition of the hepatic granulomas was analyzed in-situ with a number of recently developed mouse anti-rat monoclonal antibodies to cells of the monocyte-macrophage lineage and lymphocyte subsets. Well-developed granulomas consisted of aggregates of macrophages with central modification into epithelioid cells, a peripheral rim of T- and B-lymphoid cells, including considerable numbers of immunoblasts and plasma cells. In addition, the periphery of the granulomas contained many fat storing cells, a sinusoidal cell type thought to play a central role in hepatic fibrosis. Moreover, intense immunostaining for the extracellular matrix proteins fibronectin and collagen type III was observed at the periphery of the lesions. The granulomas persisted for long periods without eliciting liver cirrhosis. Alkaline phosphatase induced hepatic granulomas in the rat may help to elucidate the contribution of cells of the B-lineage to chronic granulomatous inflammation.

Concurrent changes in sinusoidal expression of laminin and affinity of hepatocytes to laminin during rat liver regeneration

Distribution of fibronectin, laminin, and collagens type I, III, IV, and V in the lobular regions of regenerating rat liver was studied by indirect immunofluorescence. Little or no laminin was detected in sham-operated controls throughout the experimental period, while it was detected in sinusoids of regenerating liver as early as 6 h after partial hepatectomy (PH). After reaching a maximum at 24 h, it decreased and was barely detectable 6 days after PH. Changes in the other extracellular matrix (ECM) proteins were evident 3 days after PH, but not earlier than 24 h. Hepatocytes isolated from regenerating rat livers were tested in a short term assay for attachment to the substrates coated with the ECM proteins. The attachment of hepatocytes to laminin substrates increased 12 h after PH, reached a maximum at 24 h, and decreased to the control level 6 days after PH, while that of the control remained constant. The attachment to fibronectin substrates was not different between regenerating livers and controls at any time point. The attachment to collagen did not change earlier than 24 h after PH, but increased slightly 3 days after PH. Primary rat hepatocytes cultured on the substrates coated with the ECM proteins were determined for replicative DNA synthesis in response to epidermal growth factor. Both in normal liver and in regenerating liver 24 h after PH, laminin was one of the most effective substrates in supporting the responsiveness of hepatocytes to the growth stimulus. Taken together, these results suggest the importance of hepatocyte-laminin interaction during the early stage of liver regeneration possibly in growth stimulation of hepatocytes and/or maintenance of hepatocyte-specific functions.