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Query: UMLS:C0019158 (
hepatitis
)
30,205
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The proto-oncogene
c-myc
has been implicated in the formation of primary liver tumors in
hepatitis
virus-infected woodchucks. In one of these tumors, a DNA rearrangement placed the truncated
c-myc
gene downstream of a cellular sequence (hcr) in a head-to-tail configuration resulting in 50-fold enhanced levels of
c-myc
transcripts. Analysis of the tumor-specific
c-myc
RNA now demonstrates that transformed liver cells produce fused hcr/myc transcripts initiated from the hcr promoter and extending into
c-myc
coding sequences by differential splicing mechanisms. In phase fusion of the reading frames of both genes might result in the translation of the hcr/myc 2.0 kb RNA into a hybrid protein that would differ from the normal woodchuck
c-myc
gene product by 22 additional hcr amino acids at its amino-terminus. The production of inappropriate levels of modified or normal myc-encoded proteins is probably involved in the malignant process.
...
PMID:Fused transcripts of c-myc and a new cellular locus, hcr in a primary liver tumor. 264 11
Hepatocellularcarcinoma (HCC) that occur in woodchucks chronically infected with woodchuck
hepatitis
virus (WHV) were screened for activation of cellular oncogenes. Enhanced expression and allelic alterations of the
c-myc
oncogene were found in three HCC out of nine. Variations in the size of the
c-myc
transcripts, ranging from 2.0 kilobases (kb) to 5.6 kb, as well as in the level of
c-myc
gene expression, 5-50-fold higher than in adjacent liver tissues, were observed among the three HCC. Rearrangements of the
c-myc
locus were either upstream of the gene or within the first intron. Cloning and sequencing of the break-point region from one of the three tumours showed that the
c-myc
gene was truncated and joined to a unique cellular sequence of unknown function. WHV DNA was not integrated near the
c-myc
coding exons, excluding a direct role of the virus in
c-myc
activation. The novel type of rearrangement and activation of the
c-myc
gene, reported here in liver tumours of
hepatitis
virus infected animals, appears strikingly similar to those resulting from chromosomal translocations in human Burkitt's lymphomas, acute B- and T-cell leukaemias and mouse plasmacytomas.
...
PMID:Rearrangement and enhanced expression of c-myc in hepatocellular carcinoma of hepatitis virus infected woodchucks. 302 10
Two hepatocellular carcinomas, induced in woodchucks chronically infected with woodchuck
hepatitis
virus, were characterized for viral integration near
c-myc
and alterations of
c-myc
expression. In one tumor, viral integration within the untranslated region of
c-myc
exon 3 resulted in overexpression of a long
c-myc
viral cotranscript. In the second tumor, a single insertion of highly rearranged viral sequences 600 bp upstream of
c-myc
exon 1 was associated with increased levels of normal c-myc mRNA. In both cases, viral enhancer insertion and disruption of normal
c-myc
transcriptional or posttranscriptional control appear to be involved in
c-myc
activation. These results demonstrate that integration of woodchuck
hepatitis
virus near a cellular proto-oncogene, as in several retroviral models, can contribute to the genesis of liver tumors.
...
PMID:Activation of c-myc by woodchuck hepatitis virus insertion in hepatocellular carcinoma. 318 Feb 23
The intrahepatic accumulation of the
c-myc
protooncogene product was observed on immunofluorescence in each of six patients with chronic hepatitis delta virus infection who exhibited the hepatitis D antigen in their livers. The
c-myc
product was stained in the same nuclei that contained the hepatitis D antigen. C-myc was not observed in acute hepatitis D or in cases of chronic hepatitis delta virus infection without expression of the hepatitis D antigen. The protooncogene product was detected in only 1 of 32 viral and nonviral liver disorders unrelated to
hepatitis
delta virus. To confirm these observations, we transfected HBsAg-positive (PCL/PRF/5) and HBsAg-negative (HepG2) transformed liver cell lines with a plasmid containing a
hepatitis
delta virus cDNA trimer under the control of the SV40 early enhancer/promoter sequences. Whereas baseline
c-myc
expression was barely detectable in mock-transfected PLC/PRF/5 or HepG2 cells, strong
c-myc
nuclear fluorescence was observed when these same cells were transfected with the hepatitis D antigen expression vector. Similar results were obtained after infection of HeLa cells with a recombinant vaccinia virus expressing the hepatitis D antigen. Detection of c-myc mRNA sequences by means of in situ hybridization suggested that the
c-myc
product accumulation was not due to increased amounts of its mRNA. The c-myc protein accumulates selectively in the livers of patients with chronic hepatitis delta virus infection and in the same nuclei that contain the hepatitis D antigen. The expression of
c-myc
in hepatitis D antigen-containing cells does not require the presence of hepatitis B virus infection.
...
PMID:Expression of the c-myc protooncogene product in cells infected with the hepatitis delta virus. 752 69
We have established two cell lines of hepatocellular carcinoma [Hep-KANO, clone 1 (CL-1) and clone 2 (CL-2)] from tissue obtained at autopsy of a hepatitis B virus (HBV) carrier without histological signs of
hepatitis
or liver cirrhosis. These cell lines differed considerably from each other in morphology, proliferation pattern, alpha-fetoprotein secretion, albumin synthesis, cytokine secretion, modal chromosome number and transplantability to nude mice. Histologic examinations also revealed differences between them. Amplification of N-myc, L-myc, H-ras, K-ras, N-ras, c-erb-B and c-erb-B-2 and rearrangement of p53 were not found in either of the cell lines. However, CL-1 and CL-2 showed an identical HBV-DNA integration pattern. A 4-fold amplification of
c-myc
was observed in CL-1, but not in CL-2. Hep-KANO cell lines, CL-1 and CL-2 may be useful in clarifying the question of whether hepatocarcinogenesis is directly caused by HBV infection.
...
PMID:Characteristics of human hepatocellular carcinoma cell lines (Hep-KANO) derived from a non-hepatitic, non-cirrhotic hepatitis B virus carrier. 782 95
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.
...
PMID:Liver-specific expression and high oncogenic efficiency of a c-myc transgene activated by woodchuck hepatitis virus insertion. 810 15
Chronic hepadnavirus infection is associated with hepatocellular carcinoma (HCC) in natural hosts such as humans, woodchucks, and Beechey ground squirrels. Several possible oncogenic mechanisms have been identified, including a potential role of the hepadnavirus x (hbx) gene, which transactivates transcription regulated by certain cis-acting sequences, e.g. regulatory sequences of the hepatitis B virus (HBV) and heterologous regulatory sequences of other viruses and cellular genes. The oncogenic potential of hbx is suggested by the observation of HCCs in hbx transgenic mice, the oncogenic transformation of cells expressing hbx in culture, and the transactivation of oncogenes
c-myc
and c-jun by hbx. Cis-activation of cellular oncogenes N-myc and
c-myc
by viral promoter insertion has been a common finding in woodchuck
hepatitis
virus (WHV)-associated HCCs of woodchucks. No such cis-activation of any cellular gene has been shown in virus-associated HCCs of ground squirrels or humans. Amplification and overexpression of the
c-myc
gene has been a common finding in HCCs of ground squirrels, and is rare in woodchuck or human HCCs. Point mutations in the p53 gene and allelic deletion of p53 have been common findings in human HCCs, but have not been found in HCCs in woodchucks and have been found rarely in ground squirrels. How each of these genetic changes in the different hosts contributes to HCC remains to be determined, but apparently different changes in different HCCs of hepadnavirus-infected hosts suggest that several separate genetic events may contribute to the development of HCC. These events may differ in each host, and some may not result from a direct virus-specific mechanism. Chronic hepadnavirus infection is often associated with chronic necroinflammatory liver disease and cirrhosis, a pathologic process common to several other risk factors for HCC. This suggests that this pathologic process (necroinflammatory disease) may be hepatocarcinogenic regardless of the inciting agent. Thus hepadnavirus infection may play an important role in the development of HCC by causing chronic hepatitis and HCC with the same mechanisms by which other risk factors for HCC cause chronic necroinflammatory liver disease and HCC.
...
PMID:Molecular events in the pathogenesis of hepadnavirus-associated hepatocellular carcinoma. 819 85
Woodchucks infected with woodchuck
hepatitis
virus (WHV) and ground squirrels infected with ground squirrel
hepatitis
virus (GSHV) both develop hepatocellular carcinoma (HCC), but WHV-associated tumors arise more frequently and much earlier in life. These differences are preserved when the oncogenic potentials of the two viruses are examined in the same host (woodchucks). We examined RNA and genomic DNA from tumors arising from WHV- and GSHV-infected woodchucks to determine whether these viruses use the same oncogenic pathway. N-myc RNA was not expressed in normal liver but was expressed in 10 of 13 WHV-associated HCCs examined. Southern blot analysis showed that 7 of 17 WHV-induced tumors (41%) contained rearrangements at N-myc loci due to viral genomic integration. Six of these seven inserts affected N-myc2, and most of these were at the 5' end of the gene. In contrast, only two of seven GSHV-induced woodchuck HCCs expressed N-myc RNA, and only 1 of the 16 tumors (6%) contained a rearranged N-myc allele. The GSHV-associated HCCs all contained numerous viral insertions, so the low frequency of integration into N-myc loci by GSHV was not due to a general block to integration. Four of sixteen GSHV-induced tumors harbored amplified
c-myc
alleles, and five of seven GSHV tumors tested contained elevated
c-myc
RNA levels. By contrast, enhanced
c-myc
RNA levels were observed in only 2 of 13 WHV-induced HCC. We conclude that N-myc overexpression is a regular feature of WHV- but not GSHV-associated hepatocarcinogenesis in a common host. In contrast,
c-myc
transcriptional deregulation is rarely encountered in WHV-induced HCC but is frequent in GSHV-induced HCC.
...
PMID:Differential activation of myc gene family members in hepatic carcinogenesis by closely related hepatitis B viruses. 838 Feb 30
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.
...
PMID:The HNF1/HNF4-dependent We2 element of woodchuck hepatitis virus controls viral replication and can activate the N-myc2 promoter. 897 Sep 82
The hepatitis B virus X protein (HBx) is thought to be implicated in the development of hepatocellular carcinoma, but its exact function remains controversial. Transgenic mice from PEX7 and AX16 lineages that express HBx in the liver under control of different viral regulatory elements develop no liver pathology (Billet et al., 1995). We have crossed these two mouse lineages with WHV/
c-myc
oncomice in which liver-specific expression of
c-myc
driven by woodchuck
hepatitis
virus (WHV) regulatory sequences causes liver cancer in all animals. The average tumor latency was shortened by 2 to 3 months in bitransgenic animals from all populations compared with simple
c-myc
transgenic littermates. At preneoplastic stages, adult bitransgenic mice showed four to fivefold enhanced expression of the
c-myc
transgene, increased hepatocyte proliferation and more extensive liver lesions compared with simple WHV/
c-myc
transgenics. Thus in this model, HBx alone has no direct pathological effect but it is shown to accelerate tumor development induced by
c-myc
. The data presented here firmly establish the oncogenic potential of HBx, apparently acting as a tumor promoter. This model offers unique opportunities to investigate the mechanisms by which HBx trans-activates the expression of target genes and deregulates the hepatocyte growth control in vivo.
...
PMID:The hepatitis B virus X gene potentiates c-myc-induced liver oncogenesis in transgenic mice. 905 36
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