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
Query: UMLS:C0019163 (
hepatitis B
)
38,309
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
hepatitis B
virus (HBV) X protein (HBx) is critical for the life cycle of the virus. HBx associates with several host cell proteins including the DDB1 subunit of the damaged-DNA binding protein DDB. Recent studies on the X protein encoded by the woodchuck hepadnavirus have provided correlative evidence indicating that the interaction with DDB1 is important for establishment of infection by the virus. In addition, the interaction with DDB1 has been implicated in the nuclear localization of HBx. Because the
DDB2
subunit of DDB is required for the nuclear accumulation of DDB1, we investigated the role of
DDB2
in the nuclear accumulation of HBx. Here we show that expression of
DDB2
increases the nuclear levels of HBx. Several C-terminal deletion mutants of
DDB2
that fail to bind DDB1 are able to associate with HBx, suggesting that
DDB2
may associate with HBx independently of binding to DDB1. We also show that
DDB2
enhances the nuclear accumulation of HBx independently of binding to DDB1, since a mutant that does not bind DDB1 is able to enhance the nuclear accumulation of HBx. HBV infection is associated with liver pathogenesis. We show that the nuclear levels of DDB1 and
DDB2
are tightly regulated in hepatocytes. Studies with regenerating mouse liver indicate that during late G1 phase the nuclear levels of both subunits of DDB are transiently increased, followed by a sharp decrease in S phase. Taken together, these results suggest that DDB1 and
DDB2
would participate in the nuclear functions of HBx effectively only during the late-G1 phase of the cell cycle.
...
PMID:DDB2 induces nuclear accumulation of the hepatitis B virus X protein independently of binding to DDB1. 1158 6
Mammalian
hepatitis B
viruses encode an essential regulatory protein, termed X, which may also be implicated in liver cancer development associated with chronic infection. X protein, also referred to as HBx in human virus and WHx in woodchuck virus, has been reported to bind to a number of cellular proteins, including the DDB1 subunit of the damaged DNA-binding (DDB) complex. Our previous work provided genetic evidence for the importance of WHx-DDB1 interaction in both the activity of the X protein and establishment of viral infection in woodchucks. In the present study, a direct action of DDB1 on the X protein is documented. Physical interaction between the two proteins leads to an increase in X protein stability. This effect results from protection of the viral protein from proteasome-mediated degradation. Protection of WHx is overcome in the presence
DDB2
, the second subunit of the DDB heterodimer. In keeping with observations reported for HBx,
DDB2
was found to directly bind to WHx. Nonetheless, the counteracting effect of
DDB2
on X stabilization requires
DDB2
-DDB1 interaction. Taken together, these findings substantiate the physical and functional connection between the X protein and the DDB1-
DDB2
heterodimer, leading to the regulation of the pool of the viral protein.
...
PMID:Turnover of hepatitis B virus X protein is regulated by damaged DNA-binding complex. 1205 Mar 62
The
hepatitis B
virus X protein (HBx) is essential for viral infection and strongly interferes with cell growth and viability in culture. These activities involve interaction of HBx with the DDB1 subunit of UV-damaged DNA-binding factor UV-DDB. UV-DDB consists of DDB1 and a
DDB2
subunit that mediates nuclear import and has recognized functions in DNA repair and E2F1-mediated transcription. Here we show that HBx retains DDB1-binding-dependent cytotoxic activities when engineered to accumulate in the nucleus but not when excluded from the nucleus. Nuclear localization of HBx does not require binding to DDB1 and remains unaffected by ectopically expressed UV-DDB subunits, indicating that HBx reaches the nuclear compartment independently of UV-DDB. Unexpectedly, HBx appears to largely exist in association with DDB1 and is in direct competition with
DDB2
for binding to DDB1. Hence, HBx-mediated cell death can be relieved by increased levels of
DDB2
, an effect that is not observed with a naturally occurring mutant of
DDB2
that lacks DDB1-binding activity. These findings indicate that HBx acts through a pathway that involves a
DDB2
-independent nuclear function of DDB1 and that this activity will depend on the relative concentration of DDB1 and
DDB2
in cells.
...
PMID:Hepatitis B virus X protein associated with UV-DDB1 induces cell death in the nucleus and is functionally antagonized by UV-DDB2. 1215 5
The UV-damaged DNA-binding activity protein (UV-DDB) consists of two subunits, DDB1 and
DDB2
, and functions in DNA repair and cell cycle regulation. The DDB1 subunit is a target for the
hepatitis B
virus X protein (HBx). Binding of HBx to DDB1 interferes with cell growth and viability in culture and has been implicated in the establishment of viral infection. DDB1 also interacts with the V proteins encoded by several paramyxoviruses including simian virus 5 (SV5), which prevent interferon signaling by targeting either STAT1 or STAT2 proteins for proteolysis. The role of V binding to DDB1, however, remains unclear. Here we show that the V protein of SV5 (SV5-V) and HBx exhibit strikingly similar DDB1 binding properties. Thus, SV5-V and HBx bind to DDB1 in a mutually exclusive manner, and SV5-V shares with HBx the ability to enhance the steady-state levels of DDB1 and to inhibit its association with
DDB2
. Yet only HBx induces cell death, and SV5-V can prevent HBx from doing so by blocking its interaction with DDB1. Binding of SV5-V to DDB1 may serve another function, since SV5-V shows a decreased ability to induce STAT1 degradation in cells expressing reduced amounts of DDB1. These findings demonstrate that HBx performs a unique function through its association with DDB1 for which SV5-V cannot substitute and suggest that SV5-V and HBx have evolved to bind DDB1 to achieve distinct functions, both by a mechanism that does not involve
DDB2
.
...
PMID:Hepatitis B virus X protein and simian virus 5 V protein exhibit similar UV-DDB1 binding properties to mediate distinct activities. 1274 84
