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:C0019158 (hepatitis)
30,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Alcohol consumption and viral hepatitis infection synergistically accelerate liver injury, but the underlying mechanism is not fully understood. Here we have examined the effects of ethanol on hepatitis B protein X (HBX)- or hepatitis C core protein (HCV core protein)-mediated activation of NF-kappaB, a critical signal in hepatic injury, regeneration, and tumor transformation. Acute ethanol or acetaldehyde exposure potentiates HBX or HCV core protein activation of NF-kappaB in primary mouse hepatocytes. Such potentiation can be abolished by blocking ethanol metabolism or overexpression of dominant negative NF-kappaB-inducing kinase (NIK), IkappaB kinase (IKK), or IkappaB. Moreover, pertussis toxin attenuates NF-kappaB activation induced by acetaldehyde but not by HBX or HCV core protein, whereas HBX or HCV core protein-mediated activation of NF-kappaB is abolished completely in tumor necrosis factor a receptor 1 (TNFR1) (-/-) hepatocytes. Finally, chronic ethanol consumption induces hepatic CYP2E1 protein expression and potentiates HBX or HCV core protein activation of NF-kappaB in the liver. These findings suggest that ethanol activates hepatic NF-kappaB via its metabolism and that HBX or HCV core protein activates hepatic NF-kappaB via TNFR1. With the essential role of TNFR1 in alcoholic liver injury, targeting TNFR1 by hepatitis viral proteins could contribute to cooperative effects of alcohol consumption and viral hepatitis on liver disease.
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PMID:Additive activation of hepatic NF-kappaB by ethanol and hepatitis B protein X (HBX) or HCV core protein: involvement of TNF-alpha receptor 1-independent and -dependent mechanisms. 1164 Dec 61

Overwhelming lines of epidemiological evidence have indicated that chronic infection with hepatitis B virus (HBV) or hepatitis C virus (HCV) is a major risk for the development of hepatocellular carcinoma (HCC). In the pathogenesis of HCC associated with HBV or HCV, it remains controversial whether these hepatitis viruses play a direct role or merely an indirect role. By virtue of transgenic mice established by us, it has become evident that the product of the HBV X gene (HBx protein) and the core protein of HCV have an oncogenic potential, although the pathways through which these two viral proteins operate may differ. The findings in our studies indicate that HBV and HCV are directly involved in hepatocarcinogenesis, albeit other factors such as continued cell death and regeneration associated with chronic hepatitis may play a role as well. Combined, our results suggest that there might be a mechanism in the development of HCC in persistent infection with hepatitis viruses that is distinct from that in other cancers. Similarly to the pathogenesis of other malignancies represented by colorectal cancer, the accumulation of a set of genetic aberrations may also be necessary for a multistage development of HCC. However, HBx protein and HCV core protein, to which an oncogenic potential is attributed, may allow some of the multiple stages skipped in hepatocarcinogenesis. Unlike for the other cancers, therefore, infection with HBV or HCV may be capable of inducing HCC in the absence of a complete set of genetic aberrations. Such a scenario would explain an unusually high incidence and multicentric nature of HCC developing in chronic hepatitis B or C.
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PMID:Molecular mechanism of viral hepatocarcinogenesis. 1186 82

Human hepatitis B virus (HBV) variants containing in-frame core internal deletion (CID) have been demonstrated to contain all the functional features of defective interfering (DI) particles (Yuan, T. T.-T., M.-H. Lin, D. S. Chen, and C. Shih, 1998, J. Virol. 72, 578-584). Here, we report that out-of-frame HBV CID variants exhibit defective interfering property similar to in-frame CID variants characterized previously. This result raises the possibility that it may be the deleted pregenomic RNA product, rather than the deleted core protein product, that is responsible for interference. Furthermore, a genomic deletion elsewhere does not cause interference since preS2 deletion variants exhibit no influence on wild-type HBV replication. Consistent with the natural occurrence of HBV CID variants, we recently identified CID variants of woodchuck hepatitis virus (WHV) in natural infection. However, unlike HBV CID variants, functional characterization of WHV CID variants using a human hepatoma cell line has not revealed any interference in tissue culture. In summary, defective interference is a general phenomenon for both in-frame and out-of-frame HBV CID variants.
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PMID:Out-of-frame versus in-frame core internal deletion variants of human and woodchuck hepatitis B viruses. 1187 6

Overwhelming lines of epidemiologic evidence have indicated that chronic infection with hepatitis C virus (HCV) poses a major risk towards the development of hepatocellular carcinoma (HCC). It remains controversial whether HCV plays a direct role in the pathogenesis of HCV-associated HCC or whether it merely serves an indirect role. Using the transgenic mouse model established by us, it has become evident that the core protein of HCV confers oncogenic potential. The findings in our studies indicate that HCV is directly involved in hepatocarcinogenesis, albeit other factors, such as continued cell death and regeneration associated with chronic hepatitis, may also play a role. Taken together, our results indicate that there could be a mechanism for the development of HCC in persistent hepatitis virus infection that is distinct from the pathogenesis of other cancers, like colorectal cancer. Thus, although accumulation of a set of genetic aberrations may also be necessary for a multistage development of HCC, HCV core protein, to which an oncogenic potential is ascribed, may allow some stages to be skipped in hepatocarcinogenesis. The possibility that infection with HCV may be capable of inducing HCC in the absence of a complete set of genetic aberrations would help explain the unusually high incidence and multicentric nature of HCC developing in chronic hepatitis C.
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PMID:Role of hepatitis C virus in the development of hepatocellular carcinoma: transgenic approach to viral hepatocarcinogenesis. 1198 18

Hepatitis C Virus (HCV) has been identified as the major causative agent of non-A, non-B hepatitis. Core protein is not only a capsid protein of HCV but also a regulator of cellular functions, and plays an important role in the pathogenesis of HCV. Core protein is produced as an innate form (amino acids [a.a.] 1-191), and following processing produces a mature form (a.a. 1-173). This study demonstrates that the innate form regulates subcellular localization of the mature form, and that the innate form in the cytoplasm enhances p21 expression; on the other hand, the mature form in the nucleus suppresses p21 expression. These observations suggest that the innate form is not only a precursor of the mature form but also a regulator of the localization and functions of core protein.
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PMID:Innate form of HCV core protein plays an important role in the localization and the function of HCV core protein. 1205 97

Hepatitis C Virus (HCV) is a single stranded RNA virus causing non-A and non-B hepatitis. Core protein is a viral capsid protein that plays an important role in the pathogenesis of HCV. The companion report revealed that an innate form (amino acids [a.a.] 1-191) regulated subcellular localization of a mature form (a.a. 1-173). It was also shown that the innate form in the cytoplasm enhanced the p21 expression and the mature form in the nucleus suppressed the p21 expression. Here we report that the core protein in the cytoplasm increases the amount of p21 via activating p53, and the core protein in the nucleus decreases the amount of p21 by the p53-independent pathway. These observations suggest that the regulation of p21 expression by the core protein via subcellular localization might decide the fate of infected cells either to the proliferation or to the apoptosis.
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PMID:Subcellular localization of HCV core protein regulates its ability for p53 activation and p21 suppression. 1205 98

Over the past decade, genetically engineered mouse models have been used for studies of the mechanisms underlying human diseases. One advantage of these models is that the targeted protein executes its function in normal cells in their natural tissue microenvironments. Transgenic mouse models for human viral hepatitis have also been established and have provided new insights into the pathogenesis of hepatitis and hepatocellular carcinoma (HCC). In the search for the mechanism of hepatocarcinogenesis in hepatitis viral infection, two viral proteins, the core protein of hepatitis C virus (HCV) and the HBx protein of hepatitis B virus (HBV), have been shown to possess oncogenic potential through transgenic mouse studies, indicating the direct involvement of the hepatitis viruses in hepatocarcinogenesis. The presence of the hepatitis C virus core or HBx protein, which has an oncogenic potential, may allow some of the steps in multistep hepatocarcinogenesis to be skipped. This may explain the very high frequency of HCC in patients with HCV or HBV infection.
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PMID:Hepatocarcinogenesis in hepatitis viral infection: lessons from transgenic mouse studies. 1210 67

The signal transducer and activator of transcription (STAT) family proteins are transcription factors critical in mediating cytokine signaling. Among them, STAT3 is often constitutively phosphorylated and activated in human cancers and in transformed cell lines and is implicated in tumorigenesis. However, cause of the persistent activation of STAT3 in human tumor cells is largely unknown. The hepatitis C virus (HCV) is a major etiological agent of non-A and non-B hepatitis, and chronic infection by HCV is associated with development of liver cirrhosis and hepatocellular carcinoma. HCV core protein is proposed to be responsible for the virus-induced transformation. We now report that HCV core protein directly interacts with and activates STAT3 through phosphorylation of the critical tyrosine residue. Activation of STAT3 by the HCV core in NIH-3T3 cells resulted in rapid proliferation and up-regulation of Bcl-XL and cyclin-D1. Additional expression of STAT3 in HCV core-expressing cells resulted in anchorage-independent growth and tumorigenesis. We propose that the HCV core protein cooperates with STAT3, which leads to cellular transformation.
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PMID:Activation of STAT3 by the hepatitis C virus core protein leads to cellular transformation. 1220 79

Polyprotein processing of plus-strand RNA viruses is important in the regulation of gene production and replication. The core protein of hepatitis C virus (HCV), constructing the viral particle, is processed from its precursor polyprotein and observed as two forms, p23 and p21. Production of p21 by cleavage at the C-terminus of p23 is considered crucial to viral assembly and replication. In this study, this processing step was compared between clones isolated from two patients with fulminant hepatitis and from five patients with chronic hepatitis by an in vitro translation assay and cell transfection assay. The p21 core protein was predominant from the clone isolated from one of the fulminant hepatitis patient (p21 core protein production was 65.98%), while p23 was abundant with clones from five chronic hepatitis patients (p21 core protein production was 7.11+/-1.62%) and clone from another fulminant hepatitis patient (p21 core protein production was 13.36%). Investigations with chimeric and mutation-introduced constructs revealed that four amino acid residues in the C-terminus of the core region are responsible for this difference. The data suggest that core protein processing is regulated by C-terminus mutations.
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PMID:Processing of hepatitis C virus core protein is regulated by its C-terminal sequence. 1252 46

A correlation between the detection of proteins and an activity of the pathological process was analyzed in a study of the content of the C virus hepatitis (CVH) proteins in hepatic cells of patients with chronic C hepatitis (CCH). The expression of CVH proteins in frozen sections of biopsy samples of 69 CCH patients was evaluated by using the immune-histological method involving original monoclonal antibodies (MCA) to 5 CVH proteins. The results of the detection of proteins in patients were compared with an activity and stage of CCH (by using histological tests and a level of alanine aminotransferase--AAT). A set of the CVH proteins were found in the liver of 74% of patients, i.e. core proteins, NS3, NS4A, NS4B and NS5A--in 28, 43, 43, 55 and 58%, respectively. All studied proteins were detected in the cytoplasm of hepatocytes. Proteins were found in the liver more often as compared with the detection rate of CVH RNA in the blood serum (61%). This demonstrates a high sensitivity of the discussed test at detecting the CVH infection. The accumulation of the core protein was shown to correlate with the presence of the replicative form of CVH RNA in the liver and with a higher level of AAT. The quantity of NS5 A-expressing cells correlated directly with a CCH stage. The quantity of NSB- and NS3-positive hepatocytes correlated negatively with an activity of the inflammatory-and-necrotic processes in the liver. Hyper-fermentation was found more often among the antigen-positive patients. The CCH histological activity was proven to be reliably higher at a simultaneous detection of CCH proteins in the liver and of CVH RNA--in the serum.
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PMID:[Analysis of hepatitis C virus proteins in hepatic cells of patients with chronic hepatitis C]. 1260 53


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