Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019204 (hepatocellular carcinoma)
 71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The p53 tumor suppressor gene product plays an important role in the regulation of apoptosis. Transforming growth factor beta1 (TGF-beta1)-induced apoptosis in hepatic cells is associated with reduced expression of the retinoblastoma protein (pRb) and subsequent E2F-1-activated expression of apoptosis-related genes. In this study, we explored the potential role of p53 in TGF-beta1-induced apoptosis. HuH-7 human hepatoma cells were either synchronized in G1, S and G2/M phases, or treated with 1 nM TGF-beta1. The results indicated that greater than 90% of the TGF-beta1-treated cells were arrested in G1 phase of the cell cycle. This was associated with enhanced p53 dephosphorylation and p21(Cip1/Waf1) expression, which coincided with decreased Cdk2, Cdk4, and cyclin E expression, compared with synchronized G1 cells. In addition, p53 dephosphorylation coincided with caspase-3 activation, and translocation of p21(Cip1/Waf1) and p27(Kip1) into the cytoplasm, all of which were suppressed by caspase inhibition of TGF-beta1-induced apoptosis. Finally, phosphatase inhibition and pRb overexpression partially inhibited p53-mediated apoptosis. In conclusion, the results demonstrated that TGF-beta1-induced p53 dephosphorylation is associated with caspase-3 activation, and cytosolic translocation of p21(Cip1/Waf1) and p27(Kip1), resulting in decreased expression of Cdks and cyclins. Further, p53 appears to mediate TGF-beta1-induced apoptosis downstream of the pRb/E2F-1 pathway.
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PMID:p53 dephosphorylation and p21(Cip1/Waf1) translocation correlate with caspase-3 activation in TGF-beta1-induced apoptosis of HuH-7 cells. 1500 18

Recent studies have shown that selective cyclooxygenase-2 (COX-2) inhibitors induce growth inhibition and cell cycle arrest in hepatocellular carcinoma (HCC) cell lines. However, the mechanism by which COX-2 inhibitors regulate the cell cycle and whether or not growth signal pathways are involved in the growth inhibition remain unclear. In this study, we investigated the mechanisms of growth inhibition and cell cycle arrest by etodolac, a selective COX-2 inhibitor, in HCC cell lines, HepG2 and PLC/PRF/5, by studying cell cycle regulatory proteins, and the MAP kinase and PDK1-PKB/AKT signaling pathways. Etodolac inhibited growth and PCNA expression and induced cell cycle arrest in both HCC cell lines. Etodolac induced p21WAF1/Cip1 and p27Kip1 expression and inhibited CDK2, CDK4, CDC2, cyclin A and cyclin B1 expression, but did not affect cyclin D1 or cyclin E. HGF and 10% FBS induced ERK phosphorylation, but phosphorylation of p38, JNK and AKT was down-regulated by etodolac. PD98059, a selective inhibitor of ERK phosphorylation, induced growth inhibition, the expression of p27Kip1 and cell cycle arrest. In conclusion, p21WAF1/Cip1, p27Kip1, CDK2, CDK4, CDC2, cyclin A, cyclin B1 and the MAP kinase signaling pathway are involved in growth inhibition and cell cycle arrest by a selective COX-2 inhibitor in HCC cell lines.
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PMID:Involvement of cell cycle regulatory proteins and MAP kinase signaling pathway in growth inhibition and cell cycle arrest by a selective cyclooxygenase 2 inhibitor, etodolac, in human hepatocellular carcinoma cell lines. 1529 30

Cell growth is closely related to cell proliferation and an adequate ribosome biogenesis appears to be necessary for cell duplication. In the present study, we have investigated the relationship between rRNA synthesis and cell cycle progression. For this purpose, in a first set of experiments, we evaluated the effect of rRNA synthesis variation on cycle duration in asynchronously growing H4-II-E-C3 rat hepatoma cells. Cells were either treated with insulin or insulin plus actinomycin D (AMD). The hormone stimulated ribosome biogenesis, which was later followed by an increased synthesis of DNA and a shortening of cell doubling time (DT). Bivariate flow cytometry indicated that the reduced length of the cell cycle was mainly due to the shorter G1-phase. AMD, at the concentration of 0.04 microg/ml, hindered ribosome biogenesis without affecting heterogeneous RNA production. A 12-h reduction in ribosome biogenesis level by AMD caused a lowering of DNA synthesis and a lengthening of cell DT with a longer G1-phase. In a second set of experiments, we analyzed the cell content variations of 28S and 18S rRNA transcripts during G1 phase in H4-II-E-C3 cells, synchronized by serum deprivation, and then stimulated by serum, serum plus insulin, and serum plus insulin and AMD. In control cells, a progressive increase in rRNA content occurred until the highest value of rRNA content was reached 21 h after serum stimulation. In insulin-treated cells, the highest rRNA value was reached at 12 h whereas in AMD-treated cells, the rRNA quantity was constantly low until 18 h and then sharply increased at 21 h. In the three experimental conditions, the highest values of rRNA amount were reached at the end of G1 phase and were quite similar to one another. We also evaluated, by real-time RT-PCR, cyclin E mRNA expression, which appeared to sharply increase at those times in which the maximum increase in the rRNA content was observed. Our results indicated that the achievement of an appropriate amount of rRNA allows G1/S phase transition, probably by modulating the expression of cyclin E mRNA.
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PMID:Key role of the achievement of an appropriate ribosomal RNA complement for G1-S phase transition in H4-II-E-C3 rat hepatoma cells. 1538 82

This study delineates the antiproliferative activities and in vivo efficacy of YC-1 [3-(5'-hydroxymethyl-2'-furyl)-1-benzyl indazole] in human hepatocellular carcinoma cells. YC-1 inhibited the growth of HA22T and Hep3B cells in a concentration-dependent manner without significant cytotoxicity. YC-1 induced G(1) phase arrest in the cell cycle, as detected by an increase in the proportion of cells in the G(1) phase using FAC-Scan flow cytometric analysis. It was further shown that cGMP, p42/p44 mitogen-activated protein kinase, or AKT kinase-mediated signaling pathways did not contribute to the YC-1-induced effect. Of note, YC-1 induced a dramatic increase in the expression of cyclin-dependent kinase (CDK)-inhibitory protein, p21(CIP1/WAP1), and a modest increase in p27(KIP1). The association of p21(CIP1/WAP1) with CDK2 was markedly increased in cells responsive to YC-1. YC-1 did not modify the expression of cyclin D1, cyclin E, CDK2, or CDK4. In a corollary in vivo study, YC-1 induced dose-dependent inhibition of tumor growth in mice inoculated with HA22T cells. Immunohistochemical analysis revealed an inverse relationship between the staining of p21(CIP1/WAF) and the staining of Ki-67, a cell proliferation marker. Based on the results reported herein, we suggest that YC-1 induces cell cycle arrest and inhibits tumor growth both in vitro and in vivo via the up-regulation of p21(CIP1/WAP1) expression in HA22T cells. Because of this, YC-1 is a potential antitumor agent worthy of further investigation.
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PMID:YC-1 [3-(5'-Hydroxymethyl-2'-furyl)-1-benzyl Indazole] exhibits a novel antiproliferative effect and arrests the cell cycle in G0-G1 in human hepatocellular carcinoma cells. 1552 95

Sodium butyrate is a short-chain fatty acid produced by fermentation in the gastrointestinal tract. It induces differentiation of several kinds of cancer by inhibiting histone deacetylase activity. We have reported that butyrate stimulates hepatocellular carcinoma cells into their normal phenotype. Since sodium butyrate affects both differentiation and apoptosis, we investigated expression of bcl-2-related genes in a human hepatocellular carcinoma cell line HCC-T. The expression of anti-apoptotic Bcl-2 and Mcl-1/EAT was up-regulated 4 h after the treatment, while pro-apoptotic Bax expression did not change. Gene expressions in the early stage of butyrate-stimulation were investigated by the differential display assay and the cDNA expression array. Laminin and keratin 18 were increased 6 h after the stimulation with sodium butyrate. The results of cDNA expression array revealed up-regulation of cell cycle inhibitory genes such as cyclin-dependent kinase 4 inhibitor, and interferon-related genes such as STAT2 and 3, while down-regulation of cyclin-dependent kinase 2 and cyclin E. Up-regulated production of p21WAF-1 and Mcl-1/EAT was also confirmed by Western blotting. The cytoskeletal change indicated by up-regulation of laminin and keratin 18 may be an important factor in the decrease in malignant phenotype of cancer cells. Up-regulation of interferon-related genes indicated that butyrate-treatment might induce a similar phenotypic change to that induced by type 1 interferons. This study suggests several target genes for the future gene therapy of cancer or genes preventing cancer development from pre-malignant tissues.
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PMID:Gene expression associated with the decrease in malignant phenotype of human liver cancer cells following stimulation with a histone deacetylase inhibitor. 1558 45

The myristoylated alanine-rich C kinase substrate (MARCKS) is a prominent substrate for protein kinase C (PKC) in a variety of cells. The aim of this study was not only to evaluate the expression and localization of MARCKS in various pathological liver tissues, including HCC, but also to analyze the difference in MARCKS expression between hepatitis virus-induced HCC and cirrhosis. The level of MARCKS and its phosphorylated proteins, as well as its localization, were determined using Western blot and/or immunohistochemistry in HCC and other pathological liver tissues. We also analyzed the change of MARCKS localization on the influence of MARCKS phosphorylation in the HLF cancer cell line by phosphorylation study. In addition, the relationship between MARCKS expression and proliferative activity was studied in HCC. In the immunohistochemical study, a very small amount of MARCKS protein was found along the contour of the hepatocellular membrane in normal liver and in cases of chronic hepatitis. MARCKS was up-regulated in liver cirrhosis tissue and was localized in the cytoplasm of hepatocytes. The expression of MARCKS was down-regulated in HCC tissues, as compared with non-tumorous liver cirrhosis tissues from the same patients. Furthermore, MARCKS was serine-phosphorylated in liver cirrhosis and HCC, and phosphorylated MARCKS was detected in a cytosolic fraction of these tissues. In a phosphorylation study using the HLF HCC cell line, MARCKS was displaced from the plasma membrane to the cytosol following the activation of protein kinase C (PKC) by phorbol 12-myristrate 13-acetate (PMA). Furthermore, the activity of cyclin D1 and cyclin E kinases was found to be higher in HCCs with low MARCKS expression than in HCCs with high MARCKS expression. These results suggest that up-regulation of MARCKS might be essential in the generation of cirrhotic nodules through chronic hepatitis from normal liver, and that the phosphorylation and/or down-regulation of MARCKS might play an important role in the development and progression of HCC from liver cirrhosis.
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PMID:Comparison study of the expressions of myristoylated alanine-rich C kinase substrate in hepatocellular carcinoma, liver cirrhosis, chronic hepatitis, and normal liver. 1570 21

We studied in vitro effects of glycogen synthase kinase 3beta (GSK3beta)-inhibitor lithium on the growth of hepatocellular carcinoma (HCC) cells. Lithium induced strong growth inhibition (> 70%) in 75% (n = 9 of 12) of cell lines, apparently independent from the status of major genes that are mutated in HCC including p53, p16(INK4a), beta-catenin and Axin1. Comparative studies with a growth-sensitive Huh7 and growth-resistant Hep40 cell lines showed that lithium induces growth arrest in Huh7 cells but not in Hep40 cells. Lithium induced the accumulation of N-terminally phosphorylated inactive form of GSK3beta with concomitant increase in beta-catenin and beta-catenin/TCF transcriptional activity in both cell lines. This suggests that lithium-mediated HCC growth inhibition is independent of its well-known stimulatory effect on Wnt-beta-catenin signaling. The main differences between Huh7 and Hep40 responses to lithium treatment were observed at the levels PKB/Akt and cyclin E proteins. Lithium induced depletion of both proteins in growth-sensitive Huh7, but not in growth-resistant Hep40 cells. PKB/Akt and Cyclin E are 2 major proteins that are known to be constitutively active in HCC. The targeting of both proteins with lithium may be the main reason why most HCC cells are responsive to lithium-mediated growth inhibition, independent of their p53, retinoblastoma and Wnt-beta-catenin pathways. The exploration of molecular mechanisms involved in lithium-mediated growth inhibition in relation with PKB/Akt and cyclin E downregulation may provide new insights for therapy of liver tumors.
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PMID:Lithium-mediated downregulation of PKB/Akt and cyclin E with growth inhibition in hepatocellular carcinoma cells. 1572 55

Thyroid hormone (triiodothyronine, T3) regulates growth, development and differentiation. To examine the influence of T3 on hepatoma cell growth, thyroid receptor (TR)alpha1 or TRbeta1 over-expressing HepG2 cell lines were used. Growth of the HepG2-TR stable cell line was inhibited by over 50% following treatment with T3. However, transforming growth factor (TGF)-beta neutralizing antibody, but not the control antibody can reverse the cell growth inhibition effect of T3. Flow cytometric analysis indicated that the growth inhibition was apparent at the transition point between the G1 and S phases of the cell cycle. The expression of major cell cycle regulators was used to provide further evidence for the growth inhibition. Cyclin-dependent kinase 2 (cdk2) and cyclin E were down-regulated in HepG2-TR cells. Moreover, p21 protein or mRNA levels were up-regulated by around 5-fold or 7.3-fold respectively following T3 treatment. Furthermore, phospho-retinoblastoma (ppRb) protein was down-regulated by T3. The expression of TGF-beta was studied to delineate the repression mechanism. TGF-beta was stimulated by T3 and its promoter activity was enhanced six- to eight-fold by T3. Furthermore, both T3 and TGF-beta repressed the expression of cdk2, cyclin E and ppRb. On the other hand, TGF-beta neutralizing but not control antibody blocked the repression of cdk2, cyclin E and ppRb by T3. These results demonstrated that T3 might play a key role in liver tumor cell proliferation.
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PMID:Mediation of the inhibitory effect of thyroid hormone on proliferation of hepatoma cells by transforming growth factor-beta. 1646 23

Cyclin E1 controls G1/S phase transition of the eukaryotic cell cycle. We report the impact of alternative spliced cyclin E1 isoforms on cell cycle regulation in hepatocytes. We show that expression of new cyclin E1 mRNA variants IN3, Delta4, and Delta5 is associated with retarded proliferation in murine hepatocellular carcinoma. Additionally, we demonstrate that a new cyclin E1 isoform Delta3/8 lacking the central part of wild-type mRNA is expressed predominantly in nonproliferating murine hepatocytes. Following partial hepatectomy, Delta3/8 is downregulated when hepatocytes enter the cell cycle from quiescence. The Delta3/8 protein does not exhibit any cyclin box motif but binds cyclin-dependent kinase 2 without stimulating kinase activity. We demonstrate that Delta3/8 lacks any nuclear localization signal and is exclusively located in the cytoplasm. Overexpression of Delta3/8 in cultured cells leads to a delayed G0-G1 transition, indicating that this splice variant helps to maintain a quiescent state of hepatocytes. In conclusion, we identified an isoform of cyclin E1 involved in G0 maintenance and suggest an additional mechanism for cell cycle control.
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PMID:Expression of a cyclin E1 isoform in mice is correlated with the quiescent cell cycle status of hepatocytes in vivo. 1679 91

The HBx (X protein of hepatitis B virus) is a promiscuous transactivator implicated to play a key role in hepatocellular carcinoma. However, HBx-regulated molecular events leading to deregulation of cell cycle or establishment of a permissive environment for hepatocarcinogenesis are not fully understood. Our cell culture-based studies suggested that HBx had a profound effect on cell cycle progression even in the absence of serum. HBx presence led to an early and sustained level of cyclin-cdk2 complex during the cell cycle combined with increased protein kinase activity of cdk2 heralding an early proliferative signal. The increased cdk2 activity also led to an early proteasomal degradation of p27(Kip1) that could be reversed by HBx-specific RNA interference and blocked by a chemical inhibitor of cdk2 or the T187A mutant of p27. Further, our co-immunoprecipitation and in vitro binding studies with recombinant proteins suggested a direct interaction between HBx and the cyclin E/A-cdk2 complex. Interference with different signalling cascades known to be activated by HBx suggested a constitutive requirement of Src kinases for the association of HBx with these complexes. Notably, the HBx mutant that did not interact with cyclin E/A failed to destabilize p27(Kip1) or deregulate the cell cycle. Thus HBx appears to deregulate the cell cycle by interacting with the key cell cycle regulators independent of its well-established role in transactivation.
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PMID:HBx-dependent cell cycle deregulation involves interaction with cyclin E/A-cdk2 complex and destabilization of p27Kip1. 1693 21


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