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)

A total of 33 hepatocellular carcinomas, induced in woodchucks by chronic infection with woodchuck hepatitis virus (WHV), a virus closely related to the human hepatitis B virus, were analyzed for the state of viral DNA, the expression of viral genes and of different cellular proto-oncogenes. Low levels of viral replication and presence of integrated viral forms including sequences of the enhancer element, appeared as a general rule in these tumors. Enhanced expression of one or more of the nuclear protooncogenes: c-myc, N-myc, c-fos, c-jun and jun-B was frequently observed. In two hepatomas, elevated expression and allelic alterations of c-myc were subsequent to integration of WHV DNA near the c-myc coding domain. The viral strategy for insertional activation of c-myc in these tumors appeared basically identical to that of mammalian retroviruses in T-cell lymphomas of mice and rats. Whether insertional mutagenesis of different oncogenes may be more generally linked to liver oncogenesis induced by WHV and hepatitis B viruses remains to be determined.
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PMID:Integration of hepatitis virus DNA near c-myc in woodchuck hepatocellular carcinoma. 217 71

The recent finding of c-myc activation by insertion of woodchuck hepatitis virus DNA in two independent hepatocellular carcinoma has given support to the hypothesis that integration of hepatitis B viruses into the host genome, observed in most human and woodchuck liver tumours, might contribute to oncogenesis. We report here high frequency of woodchuck hepatitis virus DNA integrations in two newly identified N-myc genes: N-myc1, the homologue of known mammalian N-myc genes, and N-myc2, an intronless 'complementary DNA gene' or 'retroposon' that has retained extensive coding and transforming homology with N-myc. N-myc2 is totally silent in normal liver, but is overexpressed without genetic rearrangements in most liver tumours. Moreover, viral integrations occur within either N-myc1 or N-myc2 in about 20% of the tumours, giving rise to chimaeric messenger RNAs in which the 3' untranslated region of N-myc was replaced by woodchuck hepatitis virus sequences encompassing the viral enhancer. Insertion sites were clustered in a short sequence of the third exon that coincides with a retroviral integration hotspot within the murine N-myc gene, recently described in T-cell lymphomas induced by murine leukaemia virus. Thus, comparable mechanisms, leading to deregulated expression of N-myc genes, may operate in the development of tumours induced either by hepatitis virus or by nonacute retroviruses in rodents. Activation of myc genes by insertion of hepadnavirus DNA now emerges as a common event in the genesis of woodchuck hepatocellular carcinoma.
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PMID:Frequent activation of N-myc genes by hepadnavirus insertion in woodchuck liver tumours. 216 90

The ability to introduce the cloned gene into the mouse germ line has made possible to analyze the cis-acting DNA sequence which is involved in the tissue-specific and developmental regulation of the gene. In addition, this system can also be applied to analyze the patho-physiological roles of the introduced gene product within the mouse whole body. Therefore, this system is one of the best approaches to analyze the mechanism of oncogenesis. The chromosomal translocation is one of the mechanisms leading to the activation of oncogene. In the case of lymphoid cell tumors, the reciprocal translocation between chromosome No. 8 and No. 14 is frequently observed. With this translocation, c-myc gene can be activated by the enhancer of immunoglobulin heavy chain (E mu). We and others have demonstrated that the E mu-myc gene could induce lymphomas in transgenic mice. Following these observation we have currently many examples that activated oncogene can induce variety tumors, giving basic knowledge about the relationship between activated oncogene and cell-type specificity of tumor. On the other hand, molecular mechanism of oncogenesis which is caused by viruses such as hepatitis B virus (HBV) or human T cell leukemia virus (HTLV) is totally unknown. One main reason is the absence of animal model for these diseases. To overcome this problem, we have attempted and succeeded to produce a transgenic mouse model which consistently produces HBV. Using these mice, it will be possible to elucidate the molecular mechanism of development of hepatitis and hepatocellular carcinoma.
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PMID:[Transgenic mice and their use in cancer study]. 249 65

Significant research evidence has demonstrated an association between persistent infection with hepatitis B virus (HBV) and the generation of hepatocellular carcinoma (HCC). These findings are based on epidemiologic studies, molecular studies and studies of HBV like viruses. Epidemiologically, the geographic correlation between HBV infection and HCC, serum HBsAg in patients with HCC, familial clustering of HCC, prospective studies, and pathological studies are discussed. Molecular studies of HBV, the structure of HBV DNA as related to retroviruses and integration of HBV DNA into the host DNA are demonstrated. The structure and replication of HBV are somewhat similar to those of retroviruses. The incidence of HBV DNA integration into the host chromosome of the patients with HBV infection is high. The structure of integrated HBV DNA sequences and flanking sequences was analyzed in many cases. However, none of the classical mechanisms of viral oncogenesis has thus far been demonstrated. The role of HBV in HCC is not understood at the molecular level. HBV may act as just an initiator, or HBV DNA integration may have an active role in liver cancer. The woodchuck hepatitis virus (WHV) is the most oncogenic and suitable animal model. Using this model, we show some results of our experiments.
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PMID:[HBV and hepatocellular carcinoma]. 303 Jan 95

Localization of woodchuck hepatitis virus in liver tissue from 10 infected woodchucks was investigated immunohistochemically and ultrastructurally. Woodchuck hepatitis virus surface antigen was detected by immunoperoxidase methods in the cytoplasm of hepatocytes with a fine granular and/or inclusion body appearance. Woodchuck hepatitis virus surface antigen positive hepatocytes were often found in the peripheral zone of hepatic lobules. In contrast to human hepatitis B core antigen, woodchuck hepatitis virus core antigen was observed only in the cytoplasm of hepatocytes, but not in the nuclei. In hyperplastic foci, woodchuck hepatitis virus antigen-positive hepatocytes were found in 3 of 8 animals. Furthermore, in 1 of 5 animals with hepatocellular carcinoma, woodchuck hepatitis virus surface antigen and woodchuck hepatitis virus core antigen were present in carcinoma cells. Electron microscopic examination revealed many filamentous structures (18 to 20 nm in diameter) in the cisternae of the endoplasmic reticulum. Noncoated core particles (18 to 20 nm in diameter) were found in the cytoplasm of the hepatocytes, but not in the nuclei. The coated particles (42 to 45 nm in diameter) were observed in the cisternae of the endoplasmic reticulum. These coated particles were shown to be morphologically identical to the virus particles in serum. These results indicate that woodchuck hepatitis virus core antigen is produced and assembled mainly in the cytoplasm of hepatocytes, and seems to be rapidly assembled into virion. The similarity of woodchuck hepatitis virus infection to human hepatitis B virus infection makes the woodchuck an excellent experimental model for the study of hepadna virus oncogenesis.
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PMID:Localization of woodchuck hepatitis virus in the liver. 327 92

Insertional mutagenesis of host genes, a common oncogenic strategy of slow transforming retroviruses, has recently been described for a DNA virus of the hepadnavirus group: the woodchuck hepatitis virus. This virus causes insertional activation of myc genes, mainly the intronless N-myc2 oncogene, in > 50% of woodchuck liver tumours. In most remaining tumours, N-myc2 is overexpressed without any apparent genetic alteration. To elucidate the role of the virus in such cases, we have cloned and analysed single integration sites in four woodchuck tumours carrying wild-type myc alleles. All sites were clustered within < 20 kb in a single locus, in which scarce unique sequences showed no detectable transcriptional activity. By fluorescent in situ hybridization, N-myc2 and the new locus (win) were localized to the same region of the long arm of the woodchuck X chromosome, and a 150-180 kb intervening distance was deduced from pulse-field gel analysis. The detection of viral integrations in win in additional tumours that produced abundant N-myc2 transcripts further substantiates the link between these two loci in woodchuck tumorigenesis. We propose that efficient activation of the N-myc2 promoter by the hepadnavirus enhancer acting over a long distance might operate in liver cell transformation.
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PMID:Evidence for long-range oncogene activation by hepadnavirus insertion. 801 53

The high oncogenic efficiency of woodchuck hepatitis virus (WHV) has been correlated with the ability of this virus to provoke insertional activation of myc family genes. To assess the impact of viral integration on liver cell transformation, we have generated transgenic mice carrying the mutated c-myc gene and adjacent viral DNA from a woodchuck tumor, in original configuration. Virtually all mice from two different strains developed hepatocellular carcinoma with a mean latency period of 8-12 months. The c-myc transgene was expressed transiently in neonatal livers, and re-expressed at preneoplastic and neoplastic stages in adult livers. Woodchuck c-myc mRNA driven by the normal P1 and P2 promoters and WHV-specific transcripts encoding viral surface antigens were produced in a strictly co-regulated fashion during development and tumorigenesis, indicating a predominant regulatory influence of the viral enhancer. Furthermore, the activity of the viral enhancer in response to various biological stimuli was apparently modulated by glucose uptake and glucagon/insulin balance in differentiated hepatocytes. In this model, a viral integration event selected from a naturally occurring tumor proved to be determinant for induction of hepatocarcinogenesis, although enforced, liver-specific expression of c-myc was limited to a particular developmental stage.
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PMID:Liver-specific expression and high oncogenic efficiency of a c-myc transgene activated by woodchuck hepatitis virus insertion. 810 15

We present evidence for a novel member of the hepadnavirus family that is endemic in wild arctic ground squirrels (Spermophylus parryi kennicotti) in Alaska. This virus, designated arctic squirrel hepatitis virus (ASHV), was initially detected in the livers of animals bearing large hepatic nodules by nucleic acid hybridization with hepadnavirus probes and in plasma by cross-reactivity with antibodies to hepadnavirus surface and core antigens. The complete nucleotide sequence of the 3,302-bp-long ASHV genome was determined and compared with those of ground squirrel hepatitis virus (GSHV) and woodchuck hepatitis virus (WHV); all sequences were organized into four open reading frames, designated pre-C/C, pre-S/S, pol, and X. Despite roughly equivalent variability among the three rodent hepadnaviruses (around 16% base and 19% amino acid exchanges), ASHV appeared to be more closely related to GSHV than to WHV in phylogenetic analysis. Accordingly, preliminary studies of the pathology of ASHV infection suggested that ASHV may be a less efficient oncogenic agent than WHV. About one-third of aged animals maintained in captivity, including virus-infected as well as uninfected squirrels, developed large liver nodules, consisting of hepatocellular adenomas or carcinomas or nonmalignant lesions characterized by drastic microvesicular steatosis. ASHV-infected arctic ground squirrels may serve as a new model with which to analyze the contribution of hepadnavirus- and host-specific determinants to liver pathology and tumorigenesis.
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PMID:A new hepadnavirus endemic in arctic ground squirrels in Alaska. 867 41

Helicobacter hepaticus has been associated with naturally occurring hepatitis in certain inbred strains of mice, and in A/JCr mice it has been linked to the development of hepatic adenomas and adenocarcinomas. H. hepaticus was orally inoculated into 30 axenic, outbred female mice, and the mice were studied longitudinally to fulfill Koch's postulates and to ascertain the pathogenic potential of the organism under defined germfree conditions. Ten cage contact mice were also housed in the same germfree isolator to study transmission patterns, and 10 germfree mice were maintained in separate isolators as controls. Mice serially euthanized from 3 weeks through 24 months postinoculation (p.i.) were surveyed by culture and PCR for H. hepaticus in liver and intestinal tissues. Tissues were analyzed for histopathological changes, and sera were assayed for the presence of immunoglobulin G antibody to H. hepaticus and changes in the liver enzyme alanine aminotransferase. Inoculated mice and cage contact mice were persistently infected with H. hepaticus as identified by culture and PCR, in both the intestine and, less frequently, the liver, for the duration of the 2-year study. Animals developed persistent chronic hepatitis, and in some animals enterocolitis was noted. Hepatocellular carcinoma was diagnosed in one H. hepaticus-infected mouse. The level of H. hepaticus serum antibody was highest in experimentally infected mice at 12 to 18 months p.i.; this corresponded in general to the time interval when the highest levels of alanine aminotransferase were recorded. Although cage contact mice became persistently infected with H. hepaticus, lesions were less severe and the levels of serological biomarkers utilized in the study were lower. The H. hepaticus-infected mouse will provide an ideal model to study putative bacterial virulence determinants and how they interact with the host to induce chronic inflammation and tumorigenesis.
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PMID:Persistent hepatitis and enterocolitis in germfree mice infected with Helicobacter hepaticus. 875 16

Helicobacter hepaticus is a recently discovered bacterium that invades mouse liver causing chronic active hepatitis followed by development of preneoplastic hepatocellular foci, hepatocellular adenomas and carcinomas. This establishes a unique animal model for study of the mechanisms of cancer development due to a chronic bacterial infection. A possible mechanism of bacteria-associated tumorigenesis is mutation of oncogenes or tumor suppressor genes. Since mutations in ras oncogenes have been widely detected in a variety of chemically induced and spontaneous mouse liver tumors and specific mutations in the p53 tumor suppressor gene have been associated with human bladder cancers attributed to chronic schistosomal infection, we studied exons 1 and 2 of the N-, K- and H-ras genes and exons 5-8 of the p53 gene for the presence of point mutations in 25 liver tumors from 10 naturally infected A/JCr mice, ranging in age from 16 to 24 months. The 20 adenomas and five carcinomas varied in size from 0.1 to 2.3 cm and arose in livers characterized by a wide assortment of pathological profiles, including hepatitis, inflammation, hyperplasia, hypertrophy, leukocyte infiltration, necrosis and focal phenotypic alteration. DNA samples extracted from formalin-fixed paraffin-embedded tissues were screened by PCR/SSCP analysis and showed no mutations in the analyzed genes. Complete absence of mutations in ras genes in 25 mouse liver tumors is unusual. Other genes may be targeted or H. hepaticus infection causes liver cancer through other pathways than direct damage to DNA.
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PMID:Lack of p53 and ras mutations in Helicobacter hepaticus-induced liver tumors in A/JCr mice. 905 12


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