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Query: UMLS:C0019158 (
hepatitis
)
30,205
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Two forms of
hepatitis
delta antigen (HDAg) have different roles in the replication cycle of
hepatitis
delta virus (HDV); the small forms trans activates HDV RNA replication, whereas the large form suppresses it but is needed for virion assembly. To understand the mechanism of these regulatory activities, we studied the possible HDAg oligomerization and its role in HDV replication. In this report, we provide direct biochemical evidence for the in vitro and in vivo formation of homodimers and heterodimers between these two HDAg species. By deletion mutagenesis, we showed that this protein interaction is mediated by the
leucine zipper
-like sequence residing in the N-terminal one-third of HDAg. Furthermore, site-specific mutants with various substitutions on two of the leucine residues in this stretch of sequence had reduced or no ability to form HDAg dimers. Correspondingly, the small HDAg with mutations in the
leucine zipper
-like sequence had reduced abilities to trans activate HDV RNA replication. Similar mutations on the
leucine zipper
-like sequence of the large HDAg also resulted in loss of the ability of large HDAg to inhibit HDV RNA replication. The in vivo biological activities of both forms of HDAg (trans activation and trans-dominant inhibition of HDV RNA replication, respectively) correlated with the extent of HDAg oligomerization in vitro. Thus, we conclude that the small HDAg participates in HDV RNA replication as an oligomer form and that the large HDAg inhibits HDV RNA replication as a result of its complex formation with small HDAg. A "black sheep" model for the mechanism of trans-dominant inhibition by the large HDAg is presented.
...
PMID:Oligomerization of hepatitis delta antigen is required for both the trans-activating and trans-dominant inhibitory activities of the delta antigen. 140 8
Hepatitis delta antigen (HDAg) is the only known protein of
hepatitis
delta virus and was previously shown to localize in the nucleoplasm of infected liver cells. In this study, nuclear localization signals of HDAg were defined by expressing various domains of the antigen in both hepatic and nonhepatic cells as beta-galactosidase fusion proteins. A cytochemical staining assay demonstrated that a domain from amino acid residues 35 to 88 of HDAg was able to facilitate transport to the nucleus of the originally cytoplasm-localized protein beta-galactosidase. Two nuclear localization signals, NLS1 and NLS2, which are similar to those of simian virus 40 T antigen and polyomavirus T antigen, respectively, were identified. Either NLS1 or NLS2 alone was sufficient for the nuclear transport of HDAg. However, a fusion protein (N65Z) containing beta-galactosidase and the N-terminal 65 amino acids of HDAg, containing NLS1, was localized exclusively in the cytoplasm and perinuclear region. A possible hydrophobic subdomain between amino acid residues 50 and 65 may block the function of NLS1. Nevertheless, N65Z could enter the nuclei of transfected cells when it was coexpressed with full-length HDAg. Entry into the nucleus may be mediated by the coiled-coil structure rather than the putative
leucine zipper
motif located between amino acid residues 35 and 65. The existence of two independent nuclear localization signals may ensure the proper functioning of HDAg in the multiplication of delta virus in the nucleus. In addition, two putative casein kinase II sites (SRSE-5 and SREE-126) that may be important in controlling the rate of nuclear transport were found in HDAg.
...
PMID:Nuclear localization signals, but not putative leucine zipper motifs, are essential for nuclear transport of hepatitis delta antigen. 152 50
The large
hepatitis
delta antigen (HDAg) has been found to be essential for the assembly of the
hepatitis
delta virion. Furthermore, in a cotransfection experiment, the large HDAg itself, without the
hepatitis
delta virus (HDV) genome and small HDAg, could be packaged into hepatitis B surface antigen (HBsAg) particles. By deletion analysis, it was shown that the amino-terminal
leucine zipper
domain was dispensable for packaging. The large HDAg could also help in copackaging of the small HDAg into HBsAg particles without the need for HDV RNA. This process was probably mediated through direct interaction of the two HDAgs as a mutated large HDAg whose
leucine zipper
domain was deleted such that it could not help in copackaging of the small HDAg. This mutated large HDAg did not suppress HDV replication, suggesting that this effect is probably also via protein interaction. These results indicated that functional domains of the large HDAg responsible for packaging with HBsAg particles and for the trans-negative effect on HDV replication can be separated.
...
PMID:Functional study of hepatitis delta virus large antigen in packaging and replication inhibition: role of the amino-terminal leucine zipper. 156 May 29
Hepatitis delta antigen (HDAg) is the only protein encoded by
hepatitis
delta virus (HDV). HDAg has been demonstrated in the nuclei of HDV-infected hepatocytes, and its nuclear transport may be important for the replication of HDV RNA. In this report, we investigated the mechanism of nuclear transport of HDAg. By expressing fusion proteins consisting of the different portions of HDAg and alpha-globin, we have identified a nuclear localization signal (NLS) within the N-terminal one-third of HDAg. It consists of two stretches of basic amino acid domains separated by a short run of nonbasic amino acids. Both of the basic domains are necessary for the efficient nuclear transport of HDAg. The nonbasic spacer amino acids could be removed without affecting the nuclear targeting of HDAg significantly. Thus, the HDAg NLS belongs to a newly identified class of NLS which consists of two discontiguous stretches of basic amino acids. This NLS is separated from a stretch of steroid receptor NLS-like sequence, which is also present but not functioning as an NLS, in HDAg. Furthermore, we have shown that subfragments of HDAg which do not contain the NLS can be passively transported into the nucleus by a trans-acting full-length HDAg, provided that these subfragments contain the region with a
leucine zipper
sequence. Thus, our results indicate that HDAg forms aggregates in the cytoplasm and that the HDAg oligomerization is probably mediated by the
leucine zipper
sequence. Therefore, HDAg is likely transported into the nucleus as a protein complex.
...
PMID:Characterization of nuclear targeting signal of hepatitis delta antigen: nuclear transport as a protein complex. 173 Nov 13
The functions of delta antigens (HDAgs) in the replication of
hepatitis
delta virus (HDV) have been identified previously. The small HDAg acts as a transactivator, whereas the large HDAg has a negative effect on replication. To understand the molecular mechanisms involved in the control of HDV replication, we have established a replication system in Huh-7 cells by cotransfecting a monomeric cDNA genome of HDV and a plasmid encoding the small HDAg. We demonstrate that a leucine repeat in the middle domain of the small HDAg is involved in binding to the HDV genome and transactivation of HDV replication. When the leucine repeat was disrupted by a substitution of valine for leucine at position 115, both RNA-binding and transactivation activity of the small HDAg were abolished. In contrast, the binding and transactivation activities were not affected when Leu-37 and Leu-44 of the small HDAg were replaced by valines. In addition, small and large HDAgs can interact with each other to form protein complexes in vitro. The complex formation that may lead to the trans-dominant negative regulation of large HDAg in HDV replication is mediated by a cryptic signal located between amino acid residues 35 and 65 other than the putative N-terminal
leucine zipper
motif. Furthermore, an extra 21-amino-acid extension near the N terminus converts the small HDAg into a pseudo-large HDAg with negative regulation activity of HDV replication even though the extreme C-terminal residue is unchanged.
...
PMID:Functional motifs of delta antigen essential for RNA binding and replication of hepatitis delta virus. 847 58
Nrf2 is a basic
leucine zipper
transcriptional activator that is essential for the coordinate transcriptional induction of various antioxidant drug-metabolizing enzymes. Numerous studies have firmly established Nrf2's importance in protection from oxidative stress and certain chemical insults. Given the protective function of Nrf2, surprisingly few studies have focused on the relationship between Nrf2 and apoptosis. Therefore, we analysed how Nrf2 influences Fas signaling using Nrf2-deficient T cells. At a concentration of 1 microg/ml, the anti-Fas antibody induced 60% of cell death in Nrf2-deficient cultured thymocytes while, using the same treatment, only 40% of Nrf2 wild-type thymocytes died (P<0.05). Nrf2 deficiency enhances the sensitivity of Fas-mediated apoptosis in T cells. Next we examined the effect of Nrf2 deficiency during hepatocellular apoptosis in vivo. In comparison to wild-type mice, Nrf2-deficient mice displayed more severe
hepatitis
after induction with the anti-Fas antibody or tumor necrosis factor (TNF)-alpha. The enhanced sensitivity to anti-Fas or TNF-alpha stimulation was restored by preadministration of glutathione ethyl monoester, a compound capable of passing the cell membrane and upregulating the intracellular levels of glutathione. The results indicated that Nrf2 activity regulates the sensitivity of death signals by means of intracellular glutathione levels.
...
PMID:Nrf2 regulates the sensitivity of death receptor signals by affecting intracellular glutathione levels. 1468 86
