Characterization of lipid and lipoprotein metabolism in primary human hepatocytes

Primary rodent hepatocytes and hepatoma cell lines are commonly used as model systems to elucidate and study potential drug targets for metabolic diseases such as obesity and atherosclerosis. However, if therapies are to be developed, it is essential that our knowledge gained from these systems is translatable to that of human. Here, we have characterized lipid and lipoprotein metabolism in primary human hepatocytes for comparison to rodent primary hepatocytes and human hepatoma cell lines. Primary human hepatocytes were maintained in collagen coated dishes in confluent monolayers for up to 3 days. We found primary human hepatocytes were viable, underwent lipid synthesis, and were able to secret lipoproteins up to 3 days in culture. Furthermore, the lipoprotein profile secreted by primary human hepatocytes was comparable to that found in human plasma; this contrasts with primary rodent hepatocytes and human hepatoma cells. We also investigated the pharmacological effects of nicotinic acid (niacin, NA), a potent dyslipidemic drug, on hepatic lipid synthesis and lipoprotein secretion. We found NA increased the expression of ATP-binding cassette transporter A1 in primary human hepatocytes, which may potentially explain how NA increases plasma high-density lipoproteins in humans. In conclusion, primary human hepatocytes are a more relevant model to study lipid synthesis and lipoprotein secretion than hepatoma cells or rodent primary hepatocyte models. Further research needs to be done to maintain liver specific functions of primary human hepatocytes in prolonged cultures for these cells to be a viable model.     

Alpha-fetoprotein enhances the proliferation of human hepatoma cells in vitro

Although the biological functions of alpha-fetoprotein ( AFP ) have been extensively studied, little is known about its effect on tumor cell growth. Our previous work has found that human AFP significantly stimulates the growth of mouse hepatoma cells in vitro. The purpose of the present study is to observe the effect of AFP on the proliferation of human hepatoma cells in vitro. Using a MTT- microculture tetrazolium assay, we found that the proliferation of human hepatoma cells was enhanced by in vitro treatment of AFP. However, the same concentrations of AFP had no effect on HL - 60 human leukemia cell proliferation, indicating that the human hepatoma cell proliferation - promoting role of AFP was not simply due to non-specific addition of exogenous protein and the proliferation enhancement of AFP showed certain tumor cell specificity. On the other hand, the growth stimulation of AFP could be diminished by rabbit anti - human AFP antibody. The anti- AFP antibody alone suppressed the growth of BEL - 7404 human hepatoma cells, not affecting HL - 60 cell proliferation. BEL - 7404 cell proliferation was not inhibited by normal rabbit immunoglobulins to demonstrate the specificity of anti-AFP effect. Taken together, it is concluded that AFP enhances the proliferation of human hepatoma cells in vitro, and this effect is seemingly mediated by an AFP/receptor autocrine pathway.     

A novel human hepatoma cell line, FLC-4, exhibits highly enhanced liver differentiation functions through the three-dimensional cell shape

We characterized three-dimensional human hepatoma cell lines, functional liver cell (FLC) cell lines, to establish a highly differentiated hepatoma cell line. We investigated the effect of extracellular matrix and cell morphology on liver-specific gene expression in FLC cells. The hepatocyte nuclear factor-4α (HNF-4α) and other liver-specific gene expressions were enhanced in spherical FLC-4 cells on EHS-gel, but other human hepatoma cells such as HepG2 did not show the enhancement. Importantly, the liver-specific gene expression levels in spherical FLC-4 cells cultured on EHS-gel were comparable to those of human liver and were much higher than those of other human hepatoma cell lines. The major matrix components and growth factors in EHS-gel did not affect cell shape and liver functions. To exclude any effect of the extracellular matrix, we made spherical FLC-4 cells by actin filament disruption. The actin-disrupted spherical cells also showed an enhanced liver-specific gene expression. We concluded that three-dimensional cell shape per se is one of the most important determinants of liver differentiation functions in FLC-4 cells. Cell morphology-dependent induction of liver-specific gene expression was mediated through microtubule organization. In conclusion, differentiation of FLC-4 human hepatoma cell line can be enhanced to a human liver-like level through the three-dimensional cell shape in a microtubule-dependent manner.     

Stimulation of motility in cultured bovine capillary endothelial cells by angiogenic preparations

Several angiogenic preparations that have been shown to stimulate plasminogen activator (PA) and collagenase production by cultured bovine capillary endothelial (BCE) cells were tested for their ability to stimulate BCE cell motility in the phagokinetic track assay. Bovine retinal extract, medium conditioned by 3T3-F442A differentiated mouse adipocytes, SK HEP-1 human hepatoma cell lysate, mouse sarcoma 180 cell lysate, and medium conditioned by mouse sarcoma 180 cells stimulated motility 68.7%, 48.5%, 140.9%, 56.5%, and 102.1%, respectively, relative to untreated cells. The motility-stimulating activity of these preparations was dose dependent and linear over the 16-h assay period. Several hormones and growth factors were tested for BCE cell motility-stimulating activity, including insulin, vasopressin, fibroblast growth factor, and a partially purified preparation of sarcoma growth factor, and were found to be ineffective. 12-0-tetradecanoyl-phorbol-acetate (TPA), a potent stimulator of both PA and collagenase activities in BCE cells, also did not stimulate motility, indicating that protease production is not sufficient to stimulate BCE cell motility in this assay. Neither SK HEP-1 hepatoma cell lysate nor TPA was effective in stimulating motility in bovine aortic endothelial (BAE) cells. The inability of SK HEP-1 hepatoma cell lysate to stimulate movement in BAE cells is consistent with the observation that angiogenesis occurs by sprouting of capillaries, not large vessels.     

Calpain2对肝癌细胞浸润和转移能力的影响

目的：肝细胞癌（HCC）是一类常见的恶性肿瘤,主要表现为进展迅速、易复发及预后不良。侵袭转移作为肝癌的最主要的恶性表型,是造成较高致死率的主要原因。Calpain是钙激活中性蛋白酶,广泛参与了细胞多种生命过程。其中Calpainl和Calpain2是Calpain家族主要成员,对于维持肿瘤细胞恶性表型有重要作用。本研究通过RNA干涉技术下调人肝癌Huh7细胞中Calpain2基因的表达,检测下调Calpain2对人肝癌Huh7细胞黏附,侵袭和迁移能力的影响,明确Calpain2在人肝癌细胞浸润和转移过程中的作用。方法：合成Calpain2的RNAi片段,瞬时转染人肝癌细胞Huh7,降低Hull7细胞中Calpain2的表达,运用细胞黏附实验,细胞侵袭实验及划痕愈合实验检测干涉Calpain2对肝癌细胞的黏附,侵袭和迁移能力的影响。结果：合成Calpain2的RNAi片段。瞬时转染人肝癌细胞Huh73,36小时后,细胞中Calpain2的蛋白水平明显下降,干涉Calpain2后人肝癌细胞Huh7的黏附率,侵袭率及划痕修复率的显著下降。结论：以上实验结果表明Calpain2能够促进肝癌细胞黏附,侵袭及划痕修复能力,Calpain2能够促进肝癌细胞的浸润和转移的作用,是肝癌发生发展过程中的肿瘤促进因子。因此,Calpain2可以作为抑制肝癌侵袭和转移的潜在靶点,靶向Call＇ain2的药物可能成为治疗肝癌侵袭转移的新方法。     

Downregulation of miR-210 expression inhibits proliferation, induces apoptosis and enhances radiosensitivity in hypoxic human hepatoma cells in vitro

Hypoxia is a common feature of solid tumors and an important contributor to tumor radioresistance. miR-210 is the most consistently and robustly induced microRNA under hypoxia in different types of tumor cells and normal cells. In the present study, to explore the feasibility of miR-210 as an effective therapeutic target, lentiviral-mediated anti-sense miR-210 gene transfer technique was employed to downregulate miR-210 expression in hypoxic human hepatoma SMMC-7721, HepG2 and HuH7 cells, and phenotypic changes of which were analyzed. Hypoxia led to an increased hypoxia inducible factor-1α (HIF-1α) and miR-210 expression and cell arrest in the G(0)/G(1) phase in all cell lines. miR-210 downregulation significantly suppressed cell viability, induced cell arrest in the G(0)/G(1) phase, increased apoptotic rate and enhanced radiosensitivity in hypoxic human hepatoma cells. Moreover, apoptosis-inducing factor, mitochondrion-associated, 3 (AIFM3) was identified as a direct target gene of miR-210. AIFM3 downregulation by siRNA attenuated radiation induced apoptosis in miR-210 downregulated hypoxic human hepatoma cells. Taken together, these data suggest that miR-210 might be a potential therapeutic target and specific inhibition of miR-210 expression in combination with radiotherapy might be expected to exert strong anti-tumor effect on hypoxic human hepatoma cells.     

Production of latent collagenase by human umbilical vein endothelial cells in response to angiogenic preparations

Three preparations known to be angiogenic in vivo and which stimulate production of latent collagenase by cultured bovine capillary endothelial (BCE) cells were tested for their ability to stimulate production of latent collagenase by cultured human umbilical vein endothelial (HUVE) cells. Bovine retinal extract and murine adipocyte-conditioned medium had no effect on production of latent collagenase by HUVE cells at concentrations that were effective in stimulating production of latent collagenase by BCE cells. However, with higher concentrations of bovine retinal extract, production of latent collagenase by HUVE cells was stimulated. Human hepatoma cell sonicate stimulated production of latent collagenase by HUVE cells in a dose-dependent manner. The concentration of human hepatoma cell sonicate which stimulated production of latent collagenase by HUVE cells was lower than the concentration that was effective for the stimulation of production of latent collagenase by BCE cells. Plasminogen activator production by HUVE cells was unaffected by human hepatoma cell sonicate. Varying the concentration of serum in HUVE cultures did not affect the stimulation of latent collagenase production by human hepatoma cell sonicate, suggesting that serum components neither block nor stimulate the action of the collagenase-inducing factor. Although human hepatoma cell sonicate is reported to stimulate endothelial cell multiplication, purified and partially purified endothelial cell mitogens had no effect on production of latent collagenase. Thus, at least two preparations which contain angiogenic activity will stimulate production of latent collagenase by HUVE cells.     

The human scavenger receptor class B type I is a novel candidate receptor for the hepatitis C virus

We discovered that the hepatitis C virus (HCV) envelope glycoprotein E2 binds to human hepatoma cell lines independently of the previously proposed HCV receptor CD81. Comparative binding studies using recombinant E2 from the most prevalent 1a and 1b genotypes revealed that E2 recognition by hepatoma cells is independent from the viral isolate, while E2-CD81 interaction is isolate specific. Binding of soluble E2 to human hepatoma cells was impaired by deletion of the hypervariable region 1 (HVR1), but the wild-type phenotype was recovered by introducing a compensatory mutation reported previously to rescue infectivity of an HVR1-deleted HCV infectious clone. We have identified the receptor responsible for E2 binding to human hepatic cells as the human scavenger receptor class B type I (SR-BI). E2-SR-BI interaction is very selective since neither mouse SR-BI nor the closely related human scavenger receptor CD36, were able to bind E2. Finally, E2 recognition by SR-BI was competed out in an isolate-specific manner both on the hepatoma cell line and on the human SR-BI-transfected cell line by an anti-HVR1 monoclonal antibody.     

Cell-type specificity of ectonucleotidase expression and upregulation by 2,3,7,8-tetrachlorodibenzo-p-dioxin

We report here that induction of ectoATPase by 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) is cell-type specific and not a generalized response to aryl hydrocarbon (Ah) receptor activation. TCDD increased [14C]-ATP and -ADP metabolism in two mouse hepatoma lines, Hepa1c1c7 and Hepa1-6 cells, but not in human hepatoma HepG2 or HuH-7 cells, human umbilical vein endothelial cells (HUVEC), chick hepatoma (LMH) cells, or chick primary hepatocytes or cardiac myocytes, even though all of those cell types were Ah receptor-responsive, as evidenced by cytochrome P4501A induction. To determine whether the differences in ectonucleotidase responsiveness to TCDD might be related to differences in cell-type ectonucleotidase expression, ATP and ADP metabolite patterns, the products of several classes of ectonucleotidases including ectonucleoside triphosphate diphosphohydrolases (E-NTPDases), ectophosphodiesterase/pyrophosphatases (E-NPP enzymes) and ectoalkaline phosphatase activities were examined. Those patterns, together with results of enzyme assays, Western blotting, or semiquantitative RT-PCR show that NTPDase2 is the main ectonucleotidase for murine and human hepatoma cells, NTPDase3 for chick hepatocytes and LMH cells, and an E-NPP enzyme for chick cardiac myocytes. Evidence for NTPDase2 expression was lacking in all cells except the mouse and human hepatoma cells. TCDD increased expression of the NTPDase2 gene but only in the mouse and not in the human hepatoma cells. TCDD did not increase NTPDase3, NTPDase1, E-NPP, or alkaline phosphatase in any of the cell types examined. The failure of TCDD to increase ATP metabolism in HUVEC, chick LMH cells, hepatocytes, and cardiac myocytes can be attributed to their lack of NTPDase2 expression, while the increase in ATP metabolism by TCDD in the mouse but not the human hepatoma cells can be explained by differences in TCDD effects on mouse and human hepatoma NTPDase2 gene expression. In addition to characterizing effects of TCDD on ectonucleotidases, these studies reveal major differences in the complements of ectonucleotidases present in different cell types. It is likely that such differences are important for cell-specific susceptibility to extracellular nucleotide toxicity and responses to purinergic signaling.     

Evidence for a protein-trafficking gene that rescues the defective glucocorticoid-regulated transport and Golgi retention of mouse mammary tumor virus glycoproteins in a rat hepatoma cell-sorting variant.

Glucocorticoids regulate the trafficking of cell surface mouse mammary tumor virus (MMTV) glycoproteins in the virus-infected rat hepatoma cell line M1.54. The CR4 rat hepatoma sorting variant, which is derived from M1.54 cells by immunoselection, is uniquely defective in the glucocorticoid-regulated transport of MMTV glycoproteins. Indirect immunofluorescence of fixed permeabilized cells and subcellular fractionation of isolated microsomes revealed that variant CR4 cells retain the MMTV glycoproteins in Golgi-like membranes after glucocorticoid treatment. The variant CR4 phenotype can be complemented by interspecies cell fusions with human HepG2 hepatoma cells and by DNA rescue with genomic fragments isolated from either human or rat hepatoma cells. Transfected wild-type genomic fragments rescue the sorting defect in CR4 at a frequency consistant with a single genetic locus, whereas homologous transfection with CR4 genomic DNA has no effect. Thus, complementation of a rat hepatoma cell-sorting variant supports the existence of a novel protein-trafficking activity encoded by the human or rat genomes that acts in trans in the Golgi to selectively mediate the sorting of cell surface MMTV glycoproteins in glucocorticoid-treated cells.     

Detection of lecithin: cholesterol acyltransferase (LCAT) in a human hepatoma cell line

A human hepatoma cell line (HepG-2) was probed for the presence of lecithin: cholesterol acyltransferase (LCAT) using an antiserum to human plasma LCAT. Double immunodiffusion analysis using antiserum to human plasma LCAT revealed a single precipitin line in the sonicated cell homogenate. This precipitin line showed a reaction of identity with highly purified plasma LCAT. The presence of LCAT within the hepatoma cells was also confirmed by an immunofluorescence test. In contrast, the cell culture supernate showed a weak and inconsistent precipitin line. These data suggest that HepG-2 cells synthesize LCAT but secretion of the enzyme by these cells into the culture medium may be partially or totally impaired.     

The inhibitory effect of transthyretin gene on growth of human hepatoma cells

Transthyretin(TTR) gene was highly expressed in normal liver and it has been found to be deleted in part of DNA samples from human hepatic cancer.Its mRNA expression was suppressed in most hepatoma samples.In order to study the biological effect of TTR gene on the growth of hepatoma cells,a recombinant vector containing TTR cDNA was constructed by pCMV,then it was transfected into hepatoma cell lines SMMC-7721 and Q3.It has been demonstrated that the inhibition of growth rate of TTR cDNA transfected hepatoma cells was about 50% in strength compared with that of the control.This inhibition was further enhanced when the transfected hepatoma cells were treated with all-trans retinoic acid.Hepatoma cells of cell lines PLC/PRF/5,SMMC-7721 and Q3 as well as hepatoma cells SMMC-7721 transfected with pCMV or pCMV-TTR were analyzed for TTR expression by Northern hybridization.The low level of TTR expression was found in both hepatoma cell lines and in SMMC-7721 cells transfected with pCMV alone.However,a remarkable TTR mRNA expression was observed in hepatoma SMMV-7721 cells transfected with pCMV-TTR.It seems possible that TTR gene might be a candidate of cancer suppressor gene for human hepatic cancer.     

Phenylalanine hydroxylation and tyrosine requirement of cultured cells : Evidence of phenylalanine hydroxylation in mastocytoma cells in culture

Growth of cells in tyrosine-free medium can be used to detect and select cells able to convert phenylalanine to tyrosine. Nine different cell types have been tested: fibroblastic cells derived from human skin, human amniotic fluid cells, continuous human lymphoid cells, rat hepatoma, Vero (monkey kidney), HeLa, mouse neuroblastoma, mouse melanoma, and mouse mastocytoma. Two cell lines, mastocytoma and hepatoma, grew well in tyrosine-free medium, and subsequent enzyme assay showed substantial phenylalanine hydroxylation. This enzyme activity has already been documented in hepatoma [1], but the demonstration of phenylalanine hydroxylation by a cell line of non-hepatic origin is new. Fibroblastic cells survived but did not grow without tyrosine. No conversion of [¹⁴C]phenylalanine to tyrosine was demonstrated in these cells.     

Induction of plasma protein secretion in a newly established human hepatoma cell line.

To study the expression and the regulation of hepatocyte markers, we have undertaken to establish human hepatoma cell lines of various phenotypes. We now report the establishment of a new human hepatoma cell line, HA22T/VGH. This cell line has many of the properties of human hepatocellular carcinoma. Only 5 of 15 plasma proteins investigated were detected in the medium of a 10-day-old HA22T/VGH culture. However, when the HA22T/VGH cells and a clonal derivative, C5, were cultured in an aggregated form, all 15 plasma proteins were found in the culture medium. These results indicate that hepatoma cell lines with different phenotypes can be established, and they provide a good experimental framework to investigate differentiation of human hepatocytes.     

TGF-beta1-mediated activations of c-Src and Rac1 modulate levels of cyclins and p27(Kip1) CDK inhibitor in hepatoma cells replated on fibronectin

Integrin-mediated cell adhesion transduces signals to regulate actin cytoskeleton and cell proliferation. While understanding how integrin signals cross-talk with the TGF-beta1 pathways, we observed lamellipodia formation and cyclin regulation in Hep3B cells, following TGF-beta1 treatment. To answer if integrin signaling via actin organization might regulate cell cycle progression after TGF-beta1 treatment, we analyzed cross-talk between the two receptor-mediated pathways in hepatoma cells on specific ECMs. We found that basal and TGF-beta1-mediated activation of c-Src and Rac1, expression of cyclins E and A, and suppression of p27Kip1 were significant in cells replated on fibronectin, but not in cells on collagen I, indicating a different integrin-mediated cellular response to TGF-beta1 treatment. Levels of tyrosine phosphorylation and actin-enriched lamellipodia on fibronectin were also more prominent than in cells on collagen I. Studies using pharmacological inhibitors or transient transfections revealed that the preferential TGF-beta1 effects in cells on fibronectin required c-Src family kinase activity. These observations suggest that a specific cross-talk between TGF-beta1 and fibronectin-binding integrin signal pathways leads to the activation of c-Src/Rac1/actin-organization, leading to changes in cell cycle regulator levels in hepatoma cells. Therefore, this study represents another mechanism to regulate cell cycle regulators when integrin signaling is collaborative with TGF-beta1 pathways.     

BetaIg-h3 is involved in the HAb18G/CD147-mediated metastasis process in human hepatoma cells

HAb18G/CD147, a new hepatoma-associated antigen cloned and screened from human hepatocellular carcinoma cDNA library, is closely correlated with metastasis process in human hepatoma cells. In the present study we aimed to identify the pivotal molecules of the HAb18G/CD147 signal transduction pathway. The investigation showed that betaig-h3, a secretory extracellular matrix (ECM) protein, was upregulated in HAb18G/CD147-expressing human hepatoma T7721 cells and was downregulated by depressing HAb18G/CD147 expression. The expression of betaig-h3, upregulated in human hepatoma cells, was positively relative to the expression of HAb18G/CD147 in different human hepatoma cell lines. By overexpressing betaig-h3 in human SMMC-7721 hepatoma cells, we discovered that betaig-h3 promoted cell adhesion, invasion, and matrix metalloproteinase (MMP) secretion potential. HAb18G/CD147-induced invasion and metastasis potential of human hepatoma cells can be attenuated by antibodies specific for betaig-h3, and no significant differences on inhibitory effects were observed among T7721 cells incubated with antibodies for betaig-h3 or HAb18G/CD147 or both types together. Taken together, our study suggests that betaig-h3, regulated by the expression of HAb18G/CD147, is involved in the HAb18G/CD147 signal transduction pathway and mediates the HAb18G/CD147-induced invasion and metastasis process of human hepatoma cells.     

Hepatopoietin acts as an autocrine growth factor in hepatoma cells

Hepatopoietin (HPO) is a novel human hepatotrophic factor. Its known function is mainly limited to supporting liver regeneration. Recently, it was shown by our laboratory that HPO acts as a mitogen for hepatoma cell lines and that there are HPO-specific receptors on the surface of these cells (Wang, G., et al., J Biol Chem 1999;274:11469-11472), indicating that HPO might be involved in oncogenesis in the liver. To study this hypothesis, we first conducted experiments in vitro to identify the existence of an autocrine loop of HPO/HPO receptor in hepatoma cell lines. It was demonstrated that HPO was actually expressed by hepatoma cells, such as HepG2, Bel 7402, and SMMC-7721, and secreted into the culture medium. Furthermore, it was shown that HPO-neutralizing antibody has an inhibitory effect on the uptake of tritiated thymidine by hepatoma cells. The results strongly suggest that HPO acts as an autocrine factor for hepatoma cells in vitro.     

Identification and characterization of receptor for mammalian hepatopoietin that is homologous to yeast ERV1

Hepatopoietin (HPO) is a novel polypeptide mitogen specific for hepatocytes and hepatoma cell lines, which is derived from liver and supports its regeneration. To determine whether HPO acts via a receptor-based signal transduction, recombinant human hepatopoietin was labeled by iodination and used to characterize its binding activity by specific displacement test and Scatchard analysis in primarily cultured rat hepatocytes and human hepatoma Hep-G2 cells. The binding was saturable and specific because it was replaceable by HPO but not by epidermal growth factor, transforming growth factor-alpha, or insulin. Scatchard analysis indicated the presence of a single class of high affinity receptor with dissociation constant (Kd) of 2 and 0.7 pM, and a receptor density of about 10, 000 sites/cell and 55,000 sites/cell in the rat hepatocytes and human hepatoma cells, respectively. The Kd values were consistent with the half-maximum dose of HPO activity. Affinity cross-linking of the receptor with 125I-HPO revealed a polypeptide of molecular mass approximately 90 kDa by SDS-polyacrylamide gel electrophoresis. Thus, the molecular mass of the HPO receptor was calculated to be about 75 kDa. These data demonstrated the existence of an HPO receptor in hepatocytes and hepatoma cells, which may account for biological effect.