Decreased Hepatic 5-HT<Subscript>1A</Subscript> Receptors During Liver Regeneration and Neoplasia in Rats

In the present study we investigated the role of 5-hydroxytryptamine (5-HT) and 5-HT_1A receptor during liver regeneration after partial hepatectomy (PH) and N-nitrosodiethylamine (NDEA) induced hepatocellular carcinoma in male Wistar rats. 5-HT content was significantly increased during liver regeneration after PH and NDEA induced hepatocellular carcinoma. Scatchard analysis using 8-OH-DPAT, a 5-HT_1A specific agonist showed a decreased receptor during liver regeneration after PH and NDEA induced hepatocellular carcinoma. 5-HT when added alone to primary hepatocyte culture did not increase DNA synthesis but was able to increase the EGF mediated DNA synthesis and inhibit the TGFβ1 mediated DNA synthesis suppression in vitro. This confirmed the co-mitogenic activity of 5-HT. 8-OH-DPAT at a concentration of 10⁻⁴ M inhibited the basal and EGF-mediated DNA synthesis in primary hepatocyte cultures. It also suppressed the TGFβ1-mediated DNA synthesis suppression. This clearly showed that activated 5-HT_1A receptor inhibited hepatocyte DNA synthesis. Our results suggest that decreased hepatic 5-HT_1A receptor function during hepatocyte regeneration and neoplasia has clinical significance in the control of cell proliferation.     

Characterization and cell cycle kinetics of hepatocytes during rat liver regeneration: in vivo BrdUrd incorporation analysed by flow cytometry and electron microscopy

The incorporation of bromodeoxyuridine (BrdUrd) into newly synthesized DNA has been analysed during hepatocellular regeneration induced by partial hepatectomy in young rats. The kinetic state of the liver has been studied by flow cytometric analysis of the incorporated BrdUrd, while the fine localization of DNA replication sites through the cell cycle has been investigated at the ultrastructural level by the immunogold technique. Eighteen hours after partial hepatectomy flow cytometry revealed an early S phase distribution which corresponded to a specific staining of the interchromatin domains of the hepatocyte nucleus. Thirty-four hours after hepatectomy, on the other hand, when most cells were in late S, a specific staining of heterochromatin domains was observed. The effect of the BrdUrd technique on nuclear aggregation has also been analysed and discussed. The results demonstrate that specific patterns of DNA replication can be recognized during the cell cycle and that flow cytometry and electron microscopy appear to be complementary in the kinetic study of liver regeneration.     

Altered transferrin gene expression in preneoplastic and neoplastic liver lesions induced in rats with N-nitrosomorpholine

The expression of the gene for the iron transport protein transferrin was found to be altered in preneoplastic and neoplastic lesions induced in the rat liver by N-nitrosomorpholine. The total RNA of ten hepatocellular carcinomas (HCC) was investigated by Northern blot analysis using a cDNA-probe comprising 150 bp of the 3′ region and compared with the total hepatic RNA in untreated rats. Seven hepatocellular carcinomas showed slight or pronounced reduction in transferrin expression. In situ hybridization of two additional hepatocellular carcinomas revealed marked reduction in the mRNA level for the transferrin gene compared with the surrounding tissue. In contrast, the majority of early preneoplastic lesions storing excess glycogen and tigroid cell foci expressed increased levels of transferrin mRNA. The loss of glycogen in mixed cell foci, which represent a later stage of hepatocarcinogenesis, was usually accompanied by a decrease in transferrin mRNA suggesting a close relationship between this change in gene expression and cellular dedifferentiation emerging during hepatocarcinogenesis.     

Altered transferrin gene expression in preneoplastic and neoplastic liver lesions induced in rats with N-nitrosomorpholine.

The expression of the gene for the iron transport protein transferrin was found to be altered in preneoplastic and neoplastic lesions induced in the rat liver by N-nitrosomorpholine. The total RNA of ten hepatocellular carcinomas (HCC) was investigated by Northern blot analysis using a cDNA-probe comprising 150 bp of the 3' region and compared with the total hepatic RNA in untreated rats. Seven hepatocellular carcinomas showed slight or pronounced reduction in transferrin expression. In situ hybridization of two additional hepatocellular carcinomas revealed marked reduction in the mRNA level for the transferrin gene compared with the surrounding tissue. In contrast, the majority of early preneoplastic lesions storing excess glycogen and tigroid cell foci expressed increased levels of transferrin mRNA. The loss of glycogen in mixed cell foci, which represent a later stage of hepatocarcinogenesis, was usually accompanied by a decrease in transferrin mRNA suggesting a close relationship between this change in gene expression and cellular dedifferentiation emerging during hepatocarcinogenesis.     

The Tissue-Specific Gene Expression during Progression of Mouse Hepatocellular Carcinoma

Expression of hepato-specific genes in slow- and fast-growing hepatocellular murine carcinomas was studied. A fast-growing dedifferentiated transplantable hepatocarcinoma variant (fgHCC) arose from the highly differentiated slow-growing hepatocarcinoma (sgHCC). In contrast to the parental hepatocarcinoma, expression of the hepatocyte nuclear factor 4 (HNF4), one of the key regulators of hepatocyte differentiation, and several HNF-4-responsive genes, transferrin, transthyretin, hepatocyte nuclear factor 1 (HNF1), and serum albumin, was downregulated in fgHCC. The expression of exogenous HNF4 in the fgHCC cell culture partially restored the expression of hepato-specific genes and led to the formation of epithelial islets in the culture. The described system may serve as an appropriate model for further analysis of mechanisms underlying hepatocarcinogenesis and liver tumor progression.     

Inhibition of alpha-fetoprotein synthesis in hepatocytes of adult mice by dextran sulfate in vivo and in vitro

Embryospecific serum protein alpha-fetoprotein (AFP) is known to be synthesized in the adult liver only during regeneration and development of hepatocellular carcinomas. It was shown that collagenase digestion of hepatic tissue followed by monolayer cell cultivation was a powerful inducer of AFP synthesis, more potent than the liver regeneration in vivo. The treatment of hepatocytes in culture with 50-100 micrograms/ml of dextran sulphate caused a remarkable inhibition of cell proliferation, formation of cord-like multicellular structures and reduction of AFP synthesis. Mouse liver regeneration after CCL4 poisoning was accompanied by a 1000-fold increase in blood AFP levels. Blood AFP levels and the content of AFP-positive cells in the liver tissue were maximum on the 3rd-4th day after poisoning. Injections of 50 micrograms of dextran sulphate per g body weight 3-5 h after poisoning and 24 and 48 h later caused nearly tenfold reduction in AFP blood level and a decrease in the content of AFP-positive cells in the liver on the 3rd day of regeneration.     

Serum alpha-fetoprotein in fulminant hepatitis and hepatic regeneration following partial hepatectomy

The pleomorphism of hepatic regeneration was studied in 10 patients with fulminant hepatitis and 7 with hepatocellular carcinoma, liver cyst, and abscess who underwent partial hepatectomy. Serum AFP levels did not increase significantly following partial hepatectomy. All of four patients who survived fulminant hepatitis had high serum AFP levels with a peak either during or before hepatic encephalopathy. Serum AFP levels decreased rather gradually during the enlargement of the atrophic liver. The observations proposed two kinds of hepatic regeneration, hepatic regeneration following surgical removal of liver and repair of liver damage following virally and probably chemically induced liver deficiency.     

Altered levels of phosphoinositide metabolites and activation of guanine-nucleotide dependent phospholipase C in rat hepatic tumors.

The metabolism of phosphatidylinositol was studied in normal quiescent hepatocytes, hepatocellular carcinomas induced by single dose of diethylnitrosamine, followed by 2-acetylaminofluorene and partial hepatectomy (Solt-Farber model), and in an established hepatoma cell line, JB1. The JB1 hepatoma cell line and hepatocellular carcinomas demonstrated a 4- to 5-fold higher rate of turnover of [3H]-inositol and [3H]-glycerol than the control hepatocytes. Significantly, elevated levels of second messengers inositol 1,4,5-trisphosphate and sn-1,2-diacylglycerol were noted in hepatic tumor cells within 4 hr of labeling with precursor molecules, whereas no detectable level of 3H-labeled inositol trisphosphate was noted in quiescent hepatocytes, even after incubation with 10 mM LiCl for 30 min. Approximately 2.5-fold higher specific activities of a guanine nucleotide and Ca+2 dependent phosphatidylinositol 4,5-bisphosphate specific phospholipase C were detected in the hepatocellular carcinoma cells. The cellular location of the phospholipase C activity was also different, being membrane bound in hepatocytes and equally distributed between cytosolic and membrane factions in the hepatomas. These data are consistent with the hypothesis that the enhanced production of diacylglycerol and inositol 1,4,5-trisphosphate in hepatocellular carcinomas may be due to the activation of a guanine nucleotide dependent phosphatidylinositol 4,5-bisphosphate specific phospholipase C. These data are the first to compare phosphoinositide turnover in normal liver and hepatic tumor cells and suggest that the sustained levels of second messengers is closely associated with the transformation and enhanced growth rate in hepatic tumor cells.     

Replicative stress and alterations in cell cycle checkpoint controls following acetaminophen hepatotoxicity restrict liver regeneration

Objectives

Acetaminophen hepatotoxicity is a leading cause of hepatic failure with impairments in liver regeneration producing significant mortality. Multiple intracellular events, including oxidative stress, mitochondrial damage, inflammation, etc., signify acetaminophen toxicity, although how these may alter cell cycle controls has been unknown and was studied for its significance in liver regeneration.

Materials and methods

Assays were performed in HuH‐7 human hepatocellular carcinoma cells, primary human hepatocytes and tissue samples from people with acetaminophen‐induced acute liver failure. Cellular oxidative stress, DNA damage and cell proliferation events were investigated by mitochondrial membrane potential assays, flow cytometry, fluorescence staining, comet assays and spotted arrays for protein expression after acetaminophen exposures.

Results

In experimental groups with acetaminophen toxicity, impaired mitochondrial viability and substantial DNA damage were observed with rapid loss of cells in S and G2/M and cell cycle restrictions or even exit in the remainder. This resulted from altered expression of the DNA damage regulator, ATM and downstream transducers, which imposed G1/S checkpoint arrest, delayed entry into S and restricted G2 transit. Tissues from people with acute liver failure confirmed hepatic DNA damage and cell cycle‐related lesions, including restrictions of hepatocytes in aneuploid states. Remarkably, treatment of cells with a cytoprotective cytokine reversed acetaminophen‐induced restrictions to restore cycling.

Conclusions

Cell cycle lesions following mitochondrial and DNA damage led to failure of hepatic regeneration in acetaminophen toxicity but their reversibility offers molecular targets for treating acute liver failure.

     

藻毒素MC-LR促二乙基亚硝胺诱发大鼠肝癌模型建立的方法

摘要肝癌动物模型有助于肝癌发病过程中分子机制的研究。二乙基亚硝胺（DEN）是一种众所周之的化学致癌剂,已被广泛用于动物肝癌模型的建立。藻毒素MC-LR是一种由蓝藻产生的环状七肽毒素,其低浓度的慢性毒性具有潜在的促癌作用。该实验以DEN联合不同浓度的藻毒素MC．LR通过腹腔注射共同诱发大鼠肝癌模型。从形态学、病理学角度分别观察大鼠肝脏外观和肝细胞的变化;从蛋白质水平运用免疫印迹法检测谷胱甘肽-S-转移酶（GST-Pi）的表达情况。结果表明,模型组中大鼠肝癌癌变过程大致经过肝细胞损伤期、肝细胞增生-硬化期和肝细胞癌变期三个阶段。其中,DEN联合终浓度为10pg／kg的藻毒素MC－LR处理时促癌效果最佳。该方法可作为一种新型的大鼠肝癌模型建立方法为今后的研究奠定基础。     

Control of albumin and alpha-fetoprotein expression in rat liver and in some transplantable hepatocellular carcinomas.

Albumin and alpha-fetoprotein production by rat liver and by four selected transplantable hepatocellular carcinomas is compared to the messenger RNA present in these tissues. Albumin and alpha-fetoprotein were measured by radioimmunoassay of serum concentration, immunofluorescence, and in vitro incorporation of labeled amino acids into proteins specifically precipitated by antisera. The number of mRNA molecules per cell was calculated from the hybridization of specific cDNA probes to polysomal mRNA and by translational activity of polysomal RNA in a wheat germ system. The amount of albumin and alpha-fetoprotein produced by the different tissues is directly related to the number of functional mRNA molecules per cell for each protein.     

hDlk-1: a cell surface marker common to normal hepatic stem/progenitor cells and carcinomas

Advances in stem cell biology have clarified that a tumour is a collection of heterogeneous cell populations, and that only a small fraction of tumour cells possesses the potential to self-renew. Delta-like 1 protein (Dlk-1) is a surface antigen present on foetal hepatic stem/progenitor cells but absent from mature hepatocytes in neonatal and adult rodent liver. Using a monoclonal antibody (mAb) against hDlk-1, Yanai et al. (Dlk-1, a cell surface antigen on foetal hepatic stem/progenitor cells, is expressed in hepatocellular, colon, pancreas and breast carcinomas at a high frequency. J. Biochem. 2010;148:85-92) have shown that human (h) Dlk-1 is expressed in human foetal, but not adult, liver and that 20% of all hepatocellular carcinomas (HCCs) are hDlk-1(+). Importantly, an even higher percentage of HCCs in younger patients are hDLK-1(+). These authors also found that hDlk-1 is present at high frequency in colon adenocarcinomas, pancreatic islet carcinomas and small cell lung carcinomas. Here, I discuss the implications of the expression of foetal hepatic stem/progenitor cell antigens on carcinoma cells.     

Nuclear deviation in hepatic parenchymal cells on sinusoidal surfaces in Arctic animals

In normal rat and human, most of the nuclei of hepatic parenchymal cells are centrally located in the cytoplasm. However, it is reported that the nuclei of hepatic parenchymal cells are situated at a deviated position on sinusoidal surfaces under pathological situations such as chronic hepatitis, hepatocellular carcinoma, adenomatous hyperplasia, or regeneration. During a study on the mechanism of extreme vitamin A-accumulation in hepatic stellate cells of arctic animals including polar bears, arctic foxes, bearded seals, and glaucous gulls, we noticed that these arctic animals displayed the nuclear deviation in hepatic parenchymal cells on sinusoidal surfaces. In this study, we assessed the frequency of hepatic parenchymal cells showing the nuclear deviation on the sinusoidal surfaces in arctic animals. A significantly higher frequency of the nuclear deviation in hepatic parenchymal cells was seen in polar bears (89.8+/-3.4%), arctic foxes (68.6+/-10.5%), bearded seals (63.6+/-8.4%), and glaucous gulls (24.2+/-5.8%), as compared to that of control rat liver (9.8+/-3.5%). However, no pathological abnormality such as fibrosis or necrosis was observed in hepatic parenchymal and nonparenchymal cells of arctic animals, and there were no differences in the intralobular distribution of parenchymal cells displaying the nuclear deviation in the livers from either arctic animals and control rats. The hepatic sinusoidal littoral cells such as stellate cells or extracellular matrix components in the perisinusoidal spaces may influence the nuclear positioning and hence the polarity and intrinsic physiological function of parenchymal cells.     

A CK19(CreERT) knockin mouse line allows for conditional DNA recombination in epithelial cells in multiple endodermal organs

Cre/LoxP-mediated DNA recombination allows for gene function and cell lineage analyses during embryonic development and tissue regeneration. Here, we describe the derivation of a K19(CreERT) mouse line in which the tamoxifen-activable CreER(T) was knocked into the endogenous cytokeratin 19 locus. In the absence of tamoxifen, leaky Cre activity could be detected only in less than 1% of stomach and intestinal epithelial cells, but not in pancreatic or hepatic epithelial tissues. Tamoxifen administration in postnatal animals induced widespread DNA recombination in epithelial cells of pancreatic ducts, hepatic ducts, stomach, and intestine in a dose-dependent manner. Significantly, we found that Cre activity could be induced in the putative gut stem/progenitor cells that sustained long-term gut epithelial expression of a Cre reporter. This mouse line should therefore provide a valuable reagent for manipulating gene activity and for cell lineage marking in multiorgans during normal tissue homeostasis and regeneration.     

Glycolipids as indicators of tumorigenesis

Hyperplastic liver nodules and hepatocellular carcinomas were induced in rats by oral administration of the carcinogen N-2-fluorenylacetamide. Neoplastic tissue was compared with control, fetal, neonatal, and precancerous liver tissues. The development of the tumors was slow, such that temporal changes in the biochemical and morphologic development of carcinogenesis could be identified. Ganglioside sialic acid levels were elevated in all but the most poorly differentiated tumors. Experiments to monitor individual enzymes suggested that the alterations in glycolipid composition were a direct effect of alterations in biosynthetic activities. The pattern during tumorigenesis was the inverse of that during normal development. Also, ganglioside patterns showed a progressive simplification from hyperplastic nodules to well-differentiated hepatomas and through two grades of poorly differentiated hepatomas. An increase in the activity of the branchpoint enzyme of ganglioside biosynthesis preceded both a decrease in the branchpoint enzyme of the disialoganglioside pathway and a marked increase in the galactosyltransferase of G_M1 formation. The results indicate that ganglioside deletions are the end result of a cascade of events in the tumorigenic transformation. The onset of ganglioside deletions but not of the cascade per se may correlate with the onset of malignancy. Glycolipid levels are elevated early in certain surrounding tissues especially in the blood. In rats bearing transplantable hepatomas, serum levels of lipidbound sialic acid were elevated 2.5-fold. Similar results were obtained with sera of mice bearing transplantable mammary carcinomas and of cancer patients. These findings provide new emphasis for gangliosides in both cancer detection and as regulatory signals for growth and multiplication of cells.     

Characterization of trans-immortalized hepatic cell lines established from transgenic mice.

Hepato-specific regulatory (promoter/enhancer) DNA sequences were used for targeting the expression of onc genes, such as murine c-myc and Simian Virus 40 T Antigen, to hepatocytes of transgenic mice which subsequently developed hepatocellular carcinomas after a variable period of time (depending on the type of onc gene employed). Several trans-immortalized cell lines were established and compared with respect to the expression of adult hepatic markers and response to growth factors. Despite the morphological differences observed between trans-hepatomas, owing to the expression of the two different onc genes, all tumor-derived cell lines behaved in a comparable fashion during long-term culture displaying an adult hepatic phenotype for at least 40 passages. They differed, however, in response to epidermal growth factor. When the gene coding for human alpha 1-antitrypsin was placed under the control of the same hepato-specific promoter/enhancer, high levels of the human recombinant protein could be harvested from the supernatants of trans-hepatoma-derived cell lines.     

Transforming growth factor alpha dramatically enhances oncogene-induced carcinogenesis in transgenic mouse pancreas and liver.

To characterize the effect(s) of transforming growth factor alpha (TGF alpha) during multistage carcinogenesis, we examined tumor development in pancreas and liver of transgenic mice that coexpressed TGF alpha with either viral (simian virus 40 T antigens [TAg]) or cellular (c-myc) oncogenes. In pancreas, TGF alpha itself was not oncogenic, but it nevertheless dramatically accelerated growth of tumors induced by either oncogene alone, thereby reducing the host life span up to 60%. Coexpression of TGF alpha and TAg produced an early synergistic growth response in the entire pancreas together with the more rapid appearance of preneoplastic foci. Coexpression of TGF alpha and c-myc also accelerated tumor growth in situ and produced transplantable acinar cell carcinomas whose rate of growth was TGF alpha dependent. In liver, expression of TGF alpha alone increased the incidence of hepatic cancer in aged mice. However, coexpression of TGF alpha with c-myc or TAg markedly reduced tumor latency and accelerated tumor growth. Significantly, expression of the TGF alpha and myc transgenes in hepatic tumors was induced up to 20-fold relative to expression in surrounding nonneoplastic liver, suggesting that high-level overexpression of these proteins acts as a major stimulus for tumor development. Finally, in both pancreas and liver, combined expression of TGF alpha and c-myc produced tumors with a more malignant (less differentiated) appearance than did expression of c-myc alone, consistent with an influence of TGF alpha upon the morphological character of c-myc-induced tumor progression. These findings demonstrate the importance of TGF alpha expression during multistage carcinogenesis in vivo and point to a major role for this growth factor as a potent stimulator of tumor growth.     

Changes in Chloroplast DNA Levels during Growth of Spinach Leaves

In young spinach leaves, 1–4 mm long, 7–10% of thetotal DNA of the leaf was chloroplast (pt) DNA. Growth in theseleaves was mainly by cell division with plastid division keepingpace with cell division and maintaining about 10 plastids percell. About 1% of the leaf cells were formed in 4.0 mm leaves.Both cell division and cell expansion contribute to the nextstage of leaf growth, which was quantitatively the major periodof new cell formation, nuclear DNA synthesis and ptDNA synthesis.Relative to the nuclear DNA level ptDNA levels rose to 21% ofthe total DNA and chloroplast.plastome copy numbers from 1500to 5000 per cell while chloroplast numbers rose from 10 to 30per cell. In the final period of leaf growth, cell expansionwas the main determinant of growth and chloroplast number percell rose to 180. In contrast to young leaves, newly emergedcotyledons contained 20% of their DNA as ptDNA and, during cellexpansion, cell number per cotyledon doubled. On average, thecells became octoploid, and chloroplast numbers and plastomecopy numbers rose to 500 and 22 000 per cell respectively. Similarlevels of nuclear ploidy, chloroplast number and plastome copynumber were induced in the first leaf pair of spinach followingdecapitation. When senescence was induced in mature leaves byshading, no loss of nuclear or ptDNA occurred. Following theonset of leaf yellowing and a form of senescence induced bynitrogen deficiency in leaves which had not fully expanded,there was preferential loss of ptDNA which fell from 8200 to3700 plastome copies per cell over an 11 d period. Key words: Spinach, Chloroplast, DNA, Ploidy