Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0023890 (cirrhosis)
42,195 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hepatocarcinogenesis is closely related to hepatic fibrosis. In this study, we investigated the relationship of type II transforming growth factor-beta receptor (T beta RII) to hepatic fibrosis and hepatocellular carcinoma (HCC). In vivo: liver tissues were obtained from 30 patients (10 chronic hepatitis, 7 cirrhosis, 13 HCC). Protein expression and immunolocalization of T beta RII were examined by Western blot analysis and immunohistochemistry. In vitro: T beta RII protein expression in hepatoma cell lines (HepG2, Hep3B, HLE, HLF and Huh7) was examined by Western blot analysis. Next, we transfected T beta RII cDNA to Huh7, and compared the change of cell number and observed the induction of apoptosis after TGF-beta1 treatment using a FACScan flow cytometer. In vivo: T beta RII immunolocalization in liver tissues was significantly decreased in patients with HCC compared with that of patients with chronic hepatitis or liver cirrhosis. In Western blot analysis, T beta RII expression in tissues attenuated in comparison with that in non-tumor tissues in some patients with HCC. In vitro: T beta RII protein expression in HLE, HLF and Huh7 cells was weaker than that in HepG2 and Hep3B cells. In Huh7 cells transfected T beta RII cDNA, cell arrest and apoptosis were obviously induced. These results indicated that human HCC has a reduced expression of T beta RII for TGF-beta1. This may provide a selective growth advantage to HCC to escape the inhibitory growth signals of TGF-beta1, and may be linked with critical steps in the growth of hepatoma cells.
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PMID:Relation of type II transforming growth factor-beta receptor to hepatic fibrosis and hepatocellular carcinoma. 1111 38

Hepatocellular carcinoma (HCC) is the most common primary malignant tumor of the liver and among the most common cancers worldwide. The distribution pattern of HCC shows geographical variation and its pathogenesis is multifactorial. Environmental, infectious, nutritional, metabolic, and endocrine factors contribute directly or indirectly to hepatocarcinogenesis. The synchronous occurrence of different risk factors, such as chronic viral hepatitis B and C, aflatoxin exposure, alcohol consumption or iron overload, in a single patient or patient population further increases the risk. HCC is commonly associated with chronic hepatitis and liver cirrhosis. Different genes have been implicated in the pathogenesis of HCC, and may be divided into four major groups: genes regulating DNA damage response; genes involved in cell cycle control; genes involved in growth inhibition and apoptosis, and genes responsible for cell-cell interaction and signal transduction. Hepatocarcinogenesis is mediated by loss of heterozygosity, somatic mutation, de novo methylation, and/or functional inactivation. As yet, there is no evidence for an ordered sequence of genomic events leading to hepatocarcinogenesis. The pattern of genomic alterations shows great variability, often between two different HCCs from a single patient. HCC evolves from precancerous lesions, and well-differentiated HCC further progresses to a less differentiated form. However, there is still great need for the definition of objective morphological, phenotypic and genetic markers for the progression of HCC.
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PMID:Pathology and pathogenesis of hepatocellular carcinoma. 1193 86

Hepatocarcinogenesis in the cirrhotic liver has recently become a subject of intense investigation. The development of hepatocellular nodules demonstrating varying degrees of cellular and architectural atypia suggests that these nodular lesions represent a pathway of carcinogenesis in cirrhosis of different etiologies. This pathway involves processes, such as capillarization and neoangiogenesis, leading to a gradual change in blood supply from portal to arterial, as a dysplastic nodule becomes hepatocellular carcinoma. These changes in intranodular blood supply create different enhancement patterns in the two phases of liver circulation after an intravenous contrast injection on multi-phase helical CT or dynamic gadolinium-enhanced MRI. This article reviews the current concepts regarding the vascular changes occurring in dysplastic nodules in the multistep process of hepatocarcinogenesis, along with the associated imaging manifestations. Some practical issues and dilemmas regarding the follow-up and biopsy of these lesions are also discussed.
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PMID:The multistep process of hepatocarcinogenesis in cirrhosis with imaging correlation. 1196 Feb 22

Hepatocellular carcinoma (HCC) is a growing health problem worldwide. The limited treatment and poor prognosis of this disease emphasizes the importance of developing effective prevention, including chemoprevention. Improvement in early diagnosis of HCC and regular screen of individuals with increased risk for HCC provide the possibility of effective chemoprevention for HCC in the future. Hepatocarcinogenesis is best described as a continuity of regeneration, proliferation, unregulated hyperplasia, dysplasia, and malignant transformation. Uncontrolled proliferation of hepatocytes clearly plays a key role in hepatocarcinogenesis. Overexpression of cyclooxygenase-2 (COX-2) has been associated with tumorigenesis of colon cancer. Selective COX-2 inhibitors possess potent suppression on the growth of colon cancer. Overexpression of COX-2 has also recently been demonstrated in patients with HCC, especially in nontumorous tissue with cirrhosis and well-differentiated tumorous tissue. In vitro studies have revealed that both NS-398, a selective COX-2 inhibitor, and sulindac, an analog of nonsteroidal anti-inflammatory drugs, effectively inhibit growth of human hepatoma cell lines, which is mediated by a decreased rate of cell proliferation. Although further in vivo studies are required in animal models to confirm these findings and define optimal doses for future clinical trials in human subjects, these findings provide a rationale for the use of COX-2 inhibitors as HCC chemoprevention.
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PMID:Rationale and feasibility of chemoprovention of hepatocellular carcinoma by cyclooxygenase-2 inhibitors. 1202 11

Hepatocarcinogenesis is a slow process during which genomic changes progressively alter the hepatocellular phenotype to produce cellular intermediates that evolve into hepatocellular carcinoma. During the long preneoplastic stage, in which the liver is often the site of chronic hepatitis, cirrhosis, or both, hepatocyte cycling is accelerated by upregulation of mitogenic pathways, in part through epigenetic mechanisms. This leads to the production of monoclonal populations of aberrant and dysplastic hepatocytes that have telomere erosion and telomerase re-expression, sometimes microsatellite instability, and occasionally structural aberrations in genes and chromosomes. Development of dysplastic hepatocytes in foci and nodules and emergence of hepatocellular carcinoma are associated with the accumulation of irreversible structural alterations in genes and chromosomes, but the genomic basis of the malignant phenotype is heterogeneous. The malignant hepatocyte phenotype may be produced by the disruption of a number of genes that function in different regulatory pathways, producing several molecular variants of hepatocellular carcinoma. New strategies should enable these variants to be characterized.
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PMID:Molecular pathogenesis of human hepatocellular carcinoma. 1214 12

The major risk factors and etiological agents responsible for development of hepatocellular carcinoma in humans have been identified and characterized. Among these are chronic infection with hepatitis B virus or hepatitis C virus, exposure to aflatoxin B1, and cirrhosis of any etiology (including alcoholic cirrhosis and cirrhosis associated with genetic liver diseases). Both chronic hepatitis and cirrhosis represent major preneoplastic conditions of the liver as the majority of hepatocellular carcinomas arise in these pathological settings. Hepatocarcinogenesis represents a linear and progressive process in which successively more aberrant monoclonal populations of hepatocytes evolve. Regenerative hepatocytes in focal lesions in the inflamed liver (chronic hepatitis or cirrhosis) give rise to hyperplastic hepatocyte nodules, and these progress to dysplastic nodules, which are thought to be the direct precursor of hepatocellular carcinoma. In most cases, the neoplastic transformation of hepatocytes results from accumulation of genetic damage during the repetitive cellular proliferation that occurs in the injured liver in response to paracrine growth factor and cytokine stimulation. Hepatocellular carcinomas exhibit numerous genetic abnormalities (including chromosomal deletions, rearrangements, aneuploidy, gene amplifications, and mutations), as well as epigenetic alterations (including modulation of DNA methylation). These genetic and epigenetic alterations combine to activate positive mediators of cellular proliferation (including cellular proto-oncogenes and their mitogenic signaling pathways) and inactivate negative mediators of cellular proliferation (including tumor suppressor genes), resulting in cells with autonomous growth potential. However, hepatocellular carcinomas exhibit a high degree of genetic heterogeneity, suggesting that multiple molecular pathways may be involved in the genesis of subsets of hepatocellular neoplasms. Continued investigation of the mechanisms of hepatocarcinogenesis will refine our current understanding of the molecular and cellular basis for neoplastic transformation in liver, enabling the development of effective strategies for prevention and/or more effective treatment of hepatocellular carcinoma.
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PMID:Mechanisms of human hepatocarcinogenesis. 1452 88

Hepatocellular carcinoma (HCC) is a major type of primary liver cancer and one of the most frequent human malignant neoplasms. Common risk factors of human HCC include chronic hepatitis virus (HBV and HCV) infection, dietary aflatoxin B1 (AFB1) ingestion, chronic alcohol abuse, and cirrhosis associated with genetic liver diseases. Hepatocarcinogenesis is the result of interaction between hereditary and environmental factors. Inheritance determines individual susceptibility to cancer; environment determines which susceptible individuals express cancer. Studies of genetic and epigenetic mechanisms of hepatocarcinogenesis showed that HCC development is a complex polygene and multipathway process; the activation of proto-oncogenes and the inactivation of tumor suppressor genes induced by genetic and epigenetic alterations are core biological processes of hepatocarcinogenesis; RB1, p53, and Wnt pathways are commonly affected in HCCs of different etiologies, which may reflect common pathologic sequence of HCC: chronic liver injury, cirrhosis, atypical hyperplastic nodules, and HCC of early stages. Hepatitis virus infection-associated HCCs have frequent alterations in RB1 pathway, including methylation of p16INK4a and RB1 genes and amplification of Cyclin D1. AFB1 exposure-associated HCCs have frequent alterations in p53 pathway; the G-->T mutation of p53 gene at codon 249 has been identified as a genetic hallmark of HCC caused by AFB1. Alcoholism-associated HCCs have frequent alterations in both RB1 and p53 pathways. The roles of some important genes related to cell apoptosis, DNA repair, drug metabolism, and tumor metastasis in hepatocarcinogenesis had been discussed.
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PMID:[Molecular genetic and epigenetic mechanisms of hepatocarcinogenesis]. 1594 97

The development of hepatocellular carcinoma (HCC), the mechanisms of hepatocarcinogenesis, the prevention of HCC, and screening for HCC will be discussed. Cirrhosis has been considered as a pre-neoplastic condition for the development of HCC. The worldwide incidence of HCC differs according to different hepatitis viruses, and information is lacking. Hepatocarcinogenesis is a multistep process involving a number of different genetic alterations and is poorly understood. Interferon should help prevent the development of HCC in patients with chronic hepatitis C. Screening is the only practical approach for improving the management of HCC patients, as early detection increases the application of curative treatments. However, the cost-effectiveness of various screening strategies needs to be analysed.
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PMID:Hepatocellular carcinoma development in cirrhosis. 1722 3

Hepatocellular carcinoma (HCC) is the fifth most common cancer and the third leading cause of cancer death worldwide. Hepatocarcinogenesis is a multistep process evolving from normal through chronic hepatitis/cirrhosis and dysplastic nodules to HCC. With advances in molecular methods, there is a growing understanding of the molecular mechanisms in hepatocarcinogenesis. Hepatocarcinogenesis is strongly linked to increases in allelic losses, chromosomal changes, gene mutations, epigenetic alterations and alterations in molecular cellular pathways. Some of these alterations are accompanied by a stepwise increase in the different pathological disease stages in hepatocarcinogenesis. Overall, a detailed understanding of the underlying molecular mechanisms involved in the progression of HCC is of fundamental importance to the development of effective prevention and treatment regimes for HCC.
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PMID:Molecular pathogenesis of hepatocellular carcinoma. 1806 74

Hepatocarcinogenesis is a multistep process, but systematic analysis using a genetic or molecular approach to accurately delineate the different stages of hepatocellular carcinoma (HCC) development is scarce. In this study, we used genome-wide allelotyping to systematically evaluate the allelic alterations in the multisteps of hepatitis B virus-associated hepatocarcinogenesis. The overall fractional allelic loss (FAL) indices of cirrhosis, dysplastic nodules (DN), and HCC were significantly different, with a clear stepwise increase (P < 0.001). Loss of heterozygosity (LOH) was uncommon in cirrhotic livers (n = 24; mean FAL index +/- SD, 0.09 +/- 0.09; median, 0.07). In contrast, LOH was common in our 74 HCC nodules, which were predominantly hepatitis B virus-associated (mean FAL index +/- SD, 0.40 +/- 0.23; median, 0.38). The 18 DNs had FAL index (mean +/- SD, 0.27 +/- 0.19; median, 0.20) in between that of cirrhosis and HCC. Importantly, high-grade DNs had FAL index significantly higher than that of low-grade DNs (P = 0.031) and close to that of HCC, indicating that high-grade DNs were genetically closer to HCC. However, there was no significant difference in FAL indices between primary HCCs and their corresponding intrahepatic metastases, but this absence of major allelic losses in this transformation to a metastatic phenotype does not exclude small-scale chromosomal losses or gene deletions. To conclude, hepatitis B virus-associated hepatocarcinogenesis is a multistep process accompanied by stepwise increase in allelic losses from cirrhosis and low- and high-grade DN to HCC. Such allelic losses contribute to promote tumor development and progression.
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PMID:Hepatitis B virus-associated multistep hepatocarcinogenesis: a stepwise increase in allelic alterations. 1863 55


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