UMLS:C0019204 - FACTA Search

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Query: UMLS:C0019204 (hepatocellular carcinoma)
71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Woodchuck hepatitis virus (WHV) efficiently induces hepatocellular carcinoma in chronically infected hosts. A key step in hepatocarcinogenesis by WHV is insertional activation of the cellular N-myc gene by integrated viral DNA. WHV enhancer II (En II) is the major cis-acting element involved in this activation. Here we characterize this viral enhancer element and define the cellular factors involved in its activity. WHV En II activity is strongly liver specific and maps to an 88-nucleotide DNA segment (nucleotides 1772 to 1859) located 5' to the pregenomic RNA start site. Genetic analyses and electrophoretic mobility shift assays indicate that the enhancer contains three subregions important to its activity. The core elements of the enhancer are recognition sites for the liver-enriched factors HNF1 and HNF4; together, these signals account for the bulk of En II activity as well as its strong liver specificity. Multimerization of either recognition site produced strong activity even in the absence of other En II sequences. 5' to these elements is a binding site for the ubiquitous Oct-1 transcription factor, which further augments enhancer activity ca. twofold.
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PMID:Cellular factors controlling the activity of woodchuck hepatitis virus enhancer II. 867 98

Transcriptional activation of myc family proto-oncogenes through the insertion of viral sequences is the predominant mechanism by which woodchuck hepatitis virus (WHV) induces liver tumors in chronically infected animals. The main target is N-myc2, a functional retroposon of the N-myc gene, but c-myc and N-myc are also marginally involved. Here we identify a major, liver-specific regulatory element in the WHV genome (We2) which efficiently activates the N-myc2 promoter in cultured hepatoma cells. In the context of the episomal viral genome, We2 governs the production of pregenomic RNA and thus plays a central role in the control of viral replication. We2 activity is primarily controlled by the liver-enriched HNF1 and HNF4 transcription factors, although NF1 and Oct proteins were also shown to bind in a central region. The expression of HNF1 and HNF4 appears to be maintained in woodchuck tumors. Thus, We2 is a prime candidate for controlling myc gene cis activation during WHV-induced hepatocarcinogenesis.
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PMID:The HNF1/HNF4-dependent We2 element of woodchuck hepatitis virus controls viral replication and can activate the N-myc2 promoter. 897 Sep 82

Cell line WH44KA is a highly malignant woodchuck hepatoma cell line. WH44KA cells contain a single woodchuck hepatitis virus (WHV) DNA integration in the 3' untranslated region of exon 3 of the woodchuck N-myc1 gene. The highly rearranged WHV DNA contains WHV enhancers which activate the N-myc promoter, and a hybrid N-myc1-WHV mRNA is produced, which leads to a high steady-state level of N-myc1 protein. To investigate whether continuous N-myc1 expression is required to maintain the tumor phenotype, we knocked out N-myc expression using a WHV-N-myc1 antisense vector. We identified two WH44KA antisense cell lines, designated 4-5 and 4-11, in which steady-state N-mycl protein levels were reduced by 95 and 80%, respectively. The growth rates of both antisense cell lines were reduced in comparison to those of wild-type and vector controls. The phenotype of 4-5 and 4-11 cells changed to a flattened appearance, and the cells exhibited contact inhibition. Colony-forming ability in soft agar was reduced by 92% for 4-5 cells and by 88% for 4-11 cells. Cell line 4-11 formed only small, slow-growing tumors in nude mice, consistent with a low level of N-myc1 remaining in the cells. In contrast, 4-5 cells, in which N-myc protein was reduced by greater than 95%, failed to form tumors in nude mice. The integrated WHV DNA contained the complete WHV X gene (WHx) and its promoter; however, we did not detect any WHx protein in the cells by using a sensitive assay. These data demonstrate that N-myc overexpression is required to maintain the malignant phenotype of WH44KA woodchuck hepatoma cells and provide a direct function for integrated WHV DNA in hepatocarcinogenesis.
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PMID:Antisense downregulation of N-myc1 in woodchuck hepatoma cells reverses the malignant phenotype. 949 76

In the woodchuck hepatitis virus (WHV)/woodchuck model for hepatitis B virus-induced hepatocellular carcinoma, frequent activation of N-myc oncogenes by WHV integration has been firmly established. N-myc2, the most frequently affected gene, was reported to be activated by WHV insertion either in the proximity of the gene or in a distant uncoding locus, win. We previously reported that a WHV integration cloned from a liver tumor was located in a chromosomal locus already described by others as the site of WHV integration in another hepatocellular carcinoma. On this basis, the locus, named b3n, was defined as a recurrent site of WHV integration. A scaffold or matrix attachment region (S/MAR) element was subsequently shown to be located in this locus approximately 1 kb from the WHV insertion sites. S/MARs are genetic elements involved both in structural and functional organization of chromosomal DNA and in stimulation of gene expression. In the present work, we investigated the possibility that an N-myc gene might be affected by integration in b3n. Analysis of a liver tumor harboring WHV integration in this locus showed N-myc2 overexpression. By restriction analysis, the b3n locus was shown to be located downstream of N-myc2, so the known sites of viral insertion in b3n were approximately 11 kb downstream of the N-myc2 promoter. Although these data support that WHV insertion in b3n activates N-myc2, the mechanisms previously described to be involved in N-myc2 activation do not appear to properly account for activation in this subset of WHV integrations. Available data suggest that activation of N-myc2 by WHV integration in b3n might be mediated by the S/MAR located near the WHV insertion.
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PMID:Activation of the N-myc2 oncogene by woodchuck hepatitis virus integration in the linked downstream b3n locus in woodchuck hepatocellular carcinoma. 1032 58

Integrations of woodchuck hepatitis virus (WHV) DNA and rearrangements of the N-myc 2 gene have been detected frequently in hepatocellular carcinoma (HCC) of Eastern woodchucks (Marmota monax) chronically infected with WHV. Fifty-five hepatocellular neoplasms and matched nontumor hepatic tissue specimens obtained postmortem from 13 chronic WHV carriers were analyzed and the frequency of WHV DNA integrations and of N-myc rearrangements compared in tumors of different size and histologic grade. Four small tumor nodules were classified histologically as adenomas and integrated sequences of WHV DNA were detected in two of the four tumor nodules. In one of the two nodules, there was evidence of N-myc rearrangement. Fifty-one neoplasms were classified as HCC. Seven were grade 1 HCCs. WHV DNA integrations were demonstrated in 43% but none had N-myc rearrangements. Twenty grade 2 HCCs had WHV DNA integrations in 80% and in 38% N-myc rearrangements were present. Twenty-four grade 3 HCCs had integrations of WHV DNA in 79% and N-myc rearrangements in 74%. In two other grade 3 HCCs, rearrangements of N-myc were detected in the absence of WHV DNA integrations. The 12 largest tumors in the series all were grade 2 or 3 HCCs, and in 83%, both WHV DNA integrations and N-myc rearrangements were demonstrated. In conclusion, molecular changes observed in this study suggest a progression of genetic alterations providing either a significant proliferative stimulation and/or a growth advantage in hepatocarcinogenesis of woodchucks with chronic WHV infection.
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PMID:Integration of woodchuck hepatitis and N-myc rearrangement determine size and histologic grade of hepatic tumors. 1505 5

IFNgamma is a potent immunomodulator which plays important roles in host defense. IFNgamma modulates transcription of growth-related genes [N-myc downstream regulator 1, growth arrest and DNA damage inducible gamma and inhibitor of DNA binding 2 (Id2)], which is followed by increased growth suppression in the mouse hepatoma cell line, H6. Further studies revealed modulation of genes involved in oxidative and nitrosative stress (iNos, gp91phox and Catalase) and increased generation of reactive oxygen species (ROS) and reactive nitrogen intermediates (RNIs) upon IFNgamma treatment. High amounts of ROS and RNI are responsible for IFNgamma-mediated reduction in cell growth as this process is blocked, using either diphenylene iodonium (DPI), an inhibitor of flavin-containing NADPH oxidases, or N-methyl L-arginine (LNMA), an inhibitor of nitric oxide synthase. Based on studies with LNMA and DPI, IFNgamma-modulated genes can be categorized into two distinct sets: oxidative and nitrosative stress independent (transporter associated with antigen processing 2, Cd80, Lmp10 and Icosl) and oxidative and nitrosative stress dependent (iNos, gp91phox, Catalase and Id2). In addition, DPI or LNMA blocked IFNgamma-induced activation of Ras, demonstrating the involvement of oxidative and nitrosative stress. Manumycin A, a farnesyl transferase inhibitor, blocked Ras activation and reduced NADPH oxidase activity and ROS amounts leading to increased cell growth in the presence of IFNgamma. Notably, the IFNgamma-induced MHC class I levels are not modulated in cells treated with DPI, LNMA or manumycin A. Together, these results delineate the role of high amounts of ROS, RNI and Ras activation in modulating expression of some genes and, thereby, function by IFNgamma. The implications of these results during modulation of immune responses by IFNgamma are discussed.
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PMID:Involvement of oxidative and nitrosative stress in modulation of gene expression and functional responses by IFNgamma. 1760 79

The over-expression of N-myc down-regulated gene 1 (NDRG1) in hepatocellular carcinoma (HCC) was previously reported to correlate with vascular invasion and patient survival. Our current study aims to elucidate its functions in HCC. We found that it lacked the tumorigenic ability to promote soft agar colony formation or serum-independent growth of NIH3T3 cells. We used specific small interfering RNA (siRNA) oligos to suppress the expression of NDRG1 in human HCC (Hep3B and HepG2) cell lines, and found that this significantly reduced cell proliferation and invasion, and induced apoptosis. Additionally, NDRG1-specific siRNA inhibited the HepG2 xenograft growth in nude mice. These results are consistent with our earlier clinical observations that NDRG1 is associated with more aggressive tumor behavior, and suggest that NDRG1 may be a potential therapeutic target for HCC.
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PMID:N-Myc down-regulated gene 1 mediates proliferation, invasion, and apoptosis of hepatocellular carcinoma cells. 1820 20

Given the reported side effects associated with chemotherapy and surgical resection, dietary intervention with omega-3 polyunsaturated fatty acids (PUFAs) has been postulated to be an alterative way to prevent liver cancer progression and metastasis. We studied the effects of an omega-3 PUFA, docahexaenoic acid (DHA) on COX-2 expression and the cell cycle control machinery that co-ordinately regulate the HCC cells growth. Our data showed that DHA (0-200 microM) retarded proliferation of the human metastatic HCC cell line MHCC97L dose-dependently. In addition, inhibition of cyclin A/Cdk2 interfered with S-phase progression further in agreement with the result of bivariate flow cytometric analysis which indicated that DNA synthesis time (Ts) was significantly prolonged by DHA in MHCC97L. The N-myc oncogene, the heat shock proteins Hsp27 and glucose-related protein 78 (GRP78) as well as the antioxidant enzymes superoxide dismutase may play significant roles in the cell cycle control and reduced-proliferation of MHCC97L by DHA. Our data indicated that it is imperative to develop therapeutic strategy with omega-3 PUFA that simultaneously targets COX-2 and other cell cycle regulators in hepatocarcinogenesis. This study provides novel mechanistic insights into the modulation of DHA on human hepatocarcinoma.
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PMID:The cell cycle effects of docosahexaenoic acid on human metastatic hepatocellular carcinoma proliferation. 2019 45

Hypoxia may activate survival signals in cancer cells. Moreover, hypoxic cells are less sensitive than normoxic cells to doxorubicin cytotoxicity, a potent activator of the p53 tumor suppressor gene. N-myc downstream-regulated gene-1 (NDRG1) is a hypoxia- and retinoic acid-inducible protein, and has been previously implicated in carcinogenesis. As this protein is also a downstream target of p53 and hepatocellular carcinoma (HCC) cells frequently evidence resistance to retinoic acid (RA) cytotoxicity, we attempted to determine whether the suppression of NDRG1 expression may sensitize HCC cells to doxorubicin and/or RA cytotoxicity. HCC cells expressed NDRG1 protein, and the expression of this protein was hypoxia- and RA-inducible. Doxorubicin treatment induced HCC cell cytotoxicity via the activation of mitochondrial apoptotic signals, including caspase-9 activation. Hypoxic HCC cells are less sensitive to doxorubicin-induced apoptosis. The suppression of NDRG1 expression either by siRNA or flavopiridol sensitized hypoxic HCC cells to doxorubicin cytotoxicity, and this was attributed to more profound augmentation of JNK and caspase-9 activation. The suppression of NDRG1 expression also sensitized RA-resistant HCC cells to RA-induced apoptosis, and this sensitization was more apparent in hypoxic HCC cells than in normoxic cells. Glutaredoxin2 expression was down-regulated in NDRG1-suppressed HCC cells. These results show that hypoxia- and RA-inducible NDRG1 expression is responsible for doxorubicin and RA resistance in HCC cells. Thus, the selective interruption of NDRG1 signaling may prove to be therapeutically useful in HCCs, particularly in the advanced infiltrative type of tumors exposed to hypoxic environments.
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PMID:Hypoxia and retinoic acid-inducible NDRG1 expression is responsible for doxorubicin and retinoic acid resistance in hepatocellular carcinoma cells. 2057 44

microRNAs (miRNAs) are short, non-coding RNAs with post-transcriptional regulatory functions that participate in diverse biological pathways. miR-122, a liver-specific miRNA, has been found to be down-regulated in hepatocellular carcinoma (HCC) and HCC-derived cell lines. In this study, miR-122 was down-regulated in the hepatitis B virus (HBV)-related HCC cell line HepG2.2.15 compared to HepG2. NDRG3, a member of the N-myc downstream-regulated gene (NDRG) family, was up-regulated in HepG2.2.15 and was identified as a target gene of miR-122. An inverse correlation between the expression of miR-122 and the NDRG3 protein was noted in HBV-related HCC specimens. The transfection of the miR-122 expression vector into the HepG2.2.15 cell line repressed the transcription and expression of NDRG3, which subsequently reversed the malignant phenotype of the cells. The replication of HBV, expression of viral antigens and proliferation of cells were significantly inhibited by restoration of miR-122. The data demonstrate that miR-122 plays an important role in HBV-related hepatocarcinogenesis by targeting NDRG3. Thus, miR-122 and NDRG3 represent key diagnostic markers and potential therapeutic targets for HBV-related HCC.
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PMID:miR-122 inhibits viral replication and cell proliferation in hepatitis B virus-related hepatocellular carcinoma and targets NDRG3. 2172 18

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