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)

Expression of the cell adhesion molecule, epithelial cadherin (E-CD) and its binding proteins, alpha- and beta-catenins, in normal liver, chronic liver diseases, and hepatocellular carcinomas (HCCs) was investigated immunohistologically. In normal liver, weak immunostaining of E-CD and catenins was observed at the lateral membranes of the hepatocytes, whereas at the interlobular bile duct epithelia, they stained strongly. No immunoreactions were seen in sinusoidal Kupffer cells. Similar results were observed in the majority of livers from chronic hepatitis and cirrhosis sufferers; however, hepatocytes undergoing regeneration and rosette formation, as well as Hering canals and proliferating ductules, showed markedly increased molecular expression. Analysis of 66 HCC lesions revealed that the majority (64.3-96.6%) of thin trabecular- and pseudoglandular-type tumors preserved or overexpressed E-CD and catenins, whereas thick trabecular-type HCCs frequently showed low E-CD and alpha-catenin expression (56.5-65.2% reduction), suggesting that the thick trabecular histology represented diffuse tumor cell growth. Likewise, the E-CD and catenin expression levels correlated with the HCC cell differentiation grades. These collective results indicate that intercellular adhesion mediated by the E-CD-catenin system plays a role in morphological changes in nonmalignant and malignant hepatic diseases.
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PMID:Expression of epithelial cadherin and alpha- and beta-catenins in nontumoral livers and hepatocellular carcinomas. 867 62

The cadherin-mediated cell-cell adhesion system plays a critical role in normal development and morphogenesis. Inactivation of this system is thought to be responsible for cancer invasion and metastasis. A human hepatocellular carcinoma (HCC) cell line, KYN-2, was observed to have great potential for intrahepatic metastasis when orthotopically implanted into the liver of SCID mice. In vitro cultures of KYN-2 cells showed that they formed trabecular structures in suspension but lost tight cell-cell adhesion and became scattered when attached to a substratum such as collagen or fibronectin. In response to adhesion to the substratum, subcellular colocalization of E-cadherin and actin filaments were shown to be reduced, and a significant amount of alpha-catenin was dissociated from the E-cadherin-catenin complex in KYN-2 cells. These changes of cell-cell adhesion were blocked by inhibitory monoclonal antibodies against beta1 and beta5 integrins. We found that c-Src was coimmunoprecipitated with E-cadherin-catenin complex and was tyrosine-dephosphorylated and activated in the adherent cells. The tyrosine dephosphorylation of c-Src was induced by cell adhesion to the substratum and inhibited by addition of inhibitory monoclonal antibodies against beta1 and beta5 integrins. These findings indicate that integrin-mediated cell-substratum adhesion inhibits cadherin-mediated cell-cell adhesion, possibly through c-Src activation, and suggest that this cross-talk mediates transient inactivation of the cadherin system and plays an important role in intrahepatic metastasis of human HCC. Modulation of this interaction might provide a new approach to prevent metastasis and recurrence of HCC.
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PMID:Loss of cell-cell contact is induced by integrin-mediated cell-substratum adhesion in highly-motile and highly-metastatic hepatocellular carcinoma cells. 1074 74

Human E-cadherin is a homophilic cell adhesion molecule and its expression is well preserved in normal human hepatocytes; a decrease in its expression has been observed in poorly differentiated hepatocellular carcinoma cells. We examined the alteration of E-cadherin and catenin expressions caused by differentiation inducers in human hepatocellular carcinoma cells. Hepatocellular carcinoma cell lines, HCC-T and HCC-M, were cultured with all-trans retinoic acid (ATRA), dexamethasone (DEX), sodium butyrate, and interferon-alpha. E-cadherin expression was only up-regulated by butyrate and interferon-alpha (IFN-alpha) in both cell lines, studied by means of fluorescence immunostaining and flow cytometry. The localization of E-cadherin staining was shown at their cell membrane. According to the increase in E-cadherin expression, beta-catenin expression appeared at the cell membrane of both cell lines when treated with butyrate and IFN-alpha. Such an appearance was not observed when cells were treated with ATRA and DEX. Western blotting showed that alpha- and y-catenin expression was not changed, while only the expression of beta-catenin increased. Beta-catenin oncogenic activation as a result of amino acid substitutions or interstitial deletions within or including parts of exon 3, which has been demonstrated recently, was not detected in these cell lines by direct deoxyribonucleic acid sequencing. These results suggest that the expression and interaction between E-cadherin and wild-type beta-catenin are potentially modulated by butyrate and IFN-alpha, and that these two agents are potent inhibitors of hepatocellular carcinoma cell invasion and metastasis.
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PMID:Up-regulation of E-cadherin and I-catenin in human hepatocellular carcinoma cell lines by sodium butyrate and interferon-alpha. 1094 98

Hepatocellular carcinoma (HCC) accounts for 80-90% of liver cancers and is one of the most frequent carcinomas throughout the world. The disease is more prevalent in parts of Africa and Asia than in North and South America and Europe, with a strong etiological association with viral hepatitis, hemochromatosis, known liver (hepatic) carcinogens, and toxins (mycotoxins). Clinical and molecular medical analyses have yielded a considerable amount of information about liver carcinogenesis. Many genes undergo somatic aberrations, with a tendency to cluster at genes involved in cell cycle regulation, in the p53 and Wnt/catenin pathways of signal transduction and cellular adhesion, and in the TGF-beta/IGF axis. Since HCC may arise both in liver cirrhosis and in noncirrhotic liver, one may speculate that different hepatocarcinogenetic pathways exist. Recent results of high-output gene analysis using cDNA microarrays support the idea of different genetic alterations in HCC with or without cirrhosis.
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PMID:Genes involved in hepatocellular carcinoma: deregulation in cell cycling and apoptosis. 1195 13

beta-catenin is involved in both cell-cell interactions and wnt pathway-dependent cell fate determination through its interactions with E-cadherin and TCF/LEF transcription factors, respectively. Cytoplasmic/nuclear levels of beta-catenin are important in regulated transcriptional activation of TCF/LEF target genes. Normally, these levels are kept low by proteosomal degradation of beta-catenin through Axin1- and APC-dependent phosphorylation by CKI and GSK-3beta. Deregulation of beta-catenin degradation results in its aberrant accumulation, often leading to cancer. Accordingly, aberrant accumulation of beta-catenin is observed at high frequency in many cancers. This accumulation correlates with either mutational activation of CTNNB1 (beta-catenin) or mutational inactivation of APC and Axin1 genes in some tumors. However, there are many tumors that display beta-catenin accumulation in the absence of a mutation in these genes. Thus, there must be additional sources for aberrant beta-catenin accumulation in cancer cells. Here, we provide experimental evidence that wild-type beta-catenin accumulates in hepatocellular carcinoma (HCC) cells in association with mutational inactivation of p53 gene. We also show that worldwide p53 and beta-catenin mutation rates are inversely correlated in HCC. These data suggest that inactivation of p53 is an important cause of aberrant accumulation of beta-catenin in cancer cells.
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PMID:P53 mutation as a source of aberrant beta-catenin accumulation in cancer cells. 1243 47

Beta-catenin integrates intracellular WNT signalling and the intercellular E-cadherin-catenin adhesion system. To date, little is known about the role of beta-catenin activation and nuclear accumulation in hepatocarcinogenesis. This study has analysed beta-catenin expression patterns in human dysplastic nodules (DNs), as well as in hepatocellular carcinomas (HCCs) in comparison with proliferation, expression of WNT-1 target genes, E-cadherin, and p53. One hundred and seventy HCCs and 25 DNs were categorized according to established criteria and analysed for the expression pattern of beta-catenin. Analysis of the proliferative activity and expression of E-cadherin, cyclin D1, MMP-7, c-myc, and p53 was performed on a representative subgroup of cases. All DNs lacked nuclear beta-catenin, while 36% of all HCCs were positive, with the number of nuclear stained cells ranging from less than 1% to more than 90%. Increasing nuclear accumulation of beta-catenin correlated with reduced membranous E-cadherin expression and nuclear p53 but not with proliferation. Cyclin D1, MMP-7, and c-myc expression was detected in 54%, 26%, and 65% of HCCs, respectively, but did not correlate with nuclear beta-catenin, proliferation, or grading. Sequence analysis of the beta-catenin gene revealed no detectable mutations in DNs, but mutations in the GSK-3beta binding site were present in 14.3% of the HCCs. In conclusion, this study has demonstrated that nuclear accumulation of beta-catenin is a frequent progression event in human hepatocarcinogenesis which correlates with nuclear p53 accumulation and loss of membranous E-cadherin, but not with the expression pattern of established WNT-1 target genes. It is hypothesized that the role of beta-catenin in human HCC differs significantly from its established function in colon carcinogenesis.
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PMID:Beta-catenin accumulation in the progression of human hepatocarcinogenesis correlates with loss of E-cadherin and accumulation of p53, but not with expression of conventional WNT-1 target genes. 1451 42

Intrahepatic cholangiocarcinoma (ICC) is the second most common malignant tumor of the liver, and ICC is reportedly increasing recently. ICC is usually adenocarcinoma with variable desmoplastic reaction, although there are several special or unusual histological features. ICC may arise at the large intrahepatic bile duct near the hepatic hilus and also from the bile ductules at the border of the hepatic parenchyma. On the anatomical level, the pathology of ICC differs depending on the region from which the ICC arises. At the large intrahepatic bile duct, ICC presents papillary growth and periductal infiltration. Some cases show extensive papillary growth and intraluminal spread with marked gastroenteric metaplasia. Mucus core protein 1 is expressed in aggressive ICC. ICC arising from ductules shares phenotypes of hepatocellular carcinoma. ICC in chronic biliary diseases, particularly arising in hepatolithiasis, presents precancerous lesions that include biliary epithelial dysplasia, as well as in-situ carcinoma. Chronic advanced hepatitis C is one of the background diseases of ICC. Chronic inflammation, with the upregulation of cyclooxygenase-2 and growth factors, and the formation of reactive oxygen species are one of the causative factors in the DNA damage of biliary epithelial cells. K- ras mutation and aberrant expression of p53 are found in one-third of ICCs. The latter may be due to mdm-2 upregulation. Hepatocyte growth factor/met and interleukin 6 (IL6)/IL6 receptor are involved in cell proliferation/mitoinhibition and apoptosis in ICC. Fibrous stroma formation and invasion involve the proliferation of Alpha-smooth muscle antigen-positive stromal cells, and cell-to-cell and cell-to-matrix interactions involving E-cadherin/catenin and CD44 and matrix proteinases may be involved in the invasion of ICC. Evasion of immune surveillance involving the Fas/FasL system is important in the malignant progression of ICC. Further molecular and genetic studies are mandatory to evaluate the pathogenesis and progression of ICC.
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PMID:Anatomic and molecular pathology of intrahepatic cholangiocarcinoma. 1459 45

Wnt signaling pathway is essential for development and tumorigenesis, however, this signaling pathway in the progress of hepatocellular carcinoma (HCC) remains unclear. In this paper, we studied the function of human T-cell transcription factor-4 (TCF4), a key factor of Wnt signaling pathway, on the proliferation of HCC cell line. We showed that the expression of TCF4 mRNA in HCC cell line BEL-7402 was higher than that in immortalized normal liver cell line L02. Blockage of Wnt pathway by Delta-NTCF4, a dominant negative TCF4, could suppress BEL-7402 cells growth and decrease the expression of cyclin D1 and c-myc, two of target genes of Wnt pathway. On the other hand, stimulating Wnt pathway by introducing a degradation-resistant -catenin S37A could increase BEL-7402 cells proliferation. But all the treatments had no effect on L02 cells. Our data indicated that TCF4 might be another key factor in Wnt pathway involved in HCC cells proliferation and TCF4 could be an effective therapeutic target for suppressing the growth of hepatocellular cancers.
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PMID:Aberrant expression and function of TCF4 in the proliferation of hepatocellular carcinoma cell line BEL-7402. 1504 Aug 93

Although the overview above provides a partial molecular picture of the early stages of stepwise hepatocarcinogenesis. it should be emphasized that tumor and nontumor liver contain multiple changes, and that there is variability in their profile among different patients even within single studies. Variability in the number and types of genetic changes has also been observed geographically, and may be dependent upon the etiology of the tumor (viral, chemical or both). Interestingly, HBxAg inactivates tumor suppressors (such as p53 [by direct binding] and Rb [by stimulating its phosphorylation]) early in carcinogenesis that are mutated later during tumor progression. HBxAg also constitutively activates signal transduction pathways, such as those involving c-jun and ras, and activates oncogenes,such as c-nloc, that are otherwise activated by 3-catenin mutations. These findings suggest common molecular targets in hepatocarcinogenesis, despite different mechanisms of activation or inactivation. These observations need to be exploited in future drug discovery and in the development of new therapeutics. Heterogeneity in the mechanisms of tumor development, evidenced by the differences in the up- and down regulated genes reported in micro array analyses, as well as in the genetic loci that undergo mutation or LOH indifferent reports, has now been well documented. This suggests that there are multiple pathways to HCC, and that there is redundancy in the pathways that regulate cell growth and survival. These findings also reflect that,although hepatocarcinogenesis is multistep, the molecular changes that underpin histopathological changes in tumor development are likely to be different or only partially overlapping in individual tumors. Overall, the consequences of these changes suggest that the pathogenesis of HCC is accompanied by a progressive loss of differentiation, loss of normal cell adhesion, loss of the ECM, and constitutive activation of selected signal transduction pathways that promote cell growth and survival. Although mechanisms are important, attention also has to be paid to the target genes whose altered expression actually mediate the neoplastic phenotype. Other key avenues of work need to be explored. For example, it will be important to try to identify germline mutations in HBV-infected patients that are passed on to their children, resulting in the development of HCC in childhood. Clinical materials will also be important for the validation of new markers with diagnostic or prognostic potential. In this context, there is an urgent need to establish simple and low-cost tests based upon molecular changes that are hallmarks of HCC development. Identification of patients with early HCC will also significantly increase survival through its impact upon treatment. The discovery and validation of HCC markers may permit accurate staging of lesions, determine the proximity of such lesions to malignancy, and determine whether lesions with a particular genetic profile are still capable of remodeling through appropriate therapeutic intervention. The efficient reintroduction of the relevant tumor suppressors, or the inhibition of oncogene expression by siRNA, provide just some of the additional opportunities that will ultimately be useful in patient treatment. Together, these approaches will go far in reducing the very high morbidity and mortality associated with HCC.
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PMID:Early molecular and genetic determinants of primary liver malignancy. 1506 49

Different event is a process that is dependent on stimulation of extracellular signals, signal transduction and gene express. Malignant transformation of hepatocytes may occur in cirrhosis, which is the result of extracellular matrix (ECM) remodeling. ECM could affect and maintain the differentiated phenotype of hepatocytes by regulating liver transcription factors. Moreover, ECM remodeling is correlated with dedifferentiation of hepatocellular carcinoma (HCC). Integrin-matrix adhesion system and E-cadherin/catenin adhesion complex mediate the cell-matrix interaction through focal adhesion kinase, extracellular-signal-regulated kinases and beta catenin/Wnt pathway. The different event of HCC compared with the reversion of abnormal cell-matrix interaction. New drugs that are power for regulating cell-matrix interaction may represent a novel therapeutic strategy for HCC.
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PMID:Cell-matrix talks: effects on differentiation of hepatocellular carcinoma. 1710 70


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