Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P51532 (transcriptional activator)
 6,546 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The murine gammaherpesvirus 68 (MHV-68) is an ideal model system for the study of interactions between gammaherpesviruses and their hosts. Intranasal infection of mice with MHV-68 results in replication of the virus in the lung epithelium followed by latent infection of B cells. Resolution of productive MHV-68 infection depends on the adaptive immune system, but little is known about the role of innate immune mechanisms and the early interaction between the host and the virus. In this report, we have used mice that are deficient in components of the early defence system, the common type I interferon (IFN) receptor (IFN R), the transcriptional activator IRF-1, and the inducible nitric oxide synthase, to investigate the contribution of these mechanisms to control of MHV-68 infection. We show that while wild-type mice are highly resistant to infection with MHV-68, mice unresponsive to type I IFNs (IFN-alpha/beta R(-/-) ) are highly susceptible to the virus. At high multiplicities of infection (m.o.i. ; 4 x 10(6) PFU), 80-90% of IFN-alpha/beta R(-/-) mice succumb to infection, and at low m.o.i. (4 x 10(3) PFU), 50% mortality rates occur. Both high and low doses of virus lead to 100- to 1000-fold higher lung virus titres in IFN-alpha/beta R(-/-) mice than are found in wild-type mice and result in systemic dissemination of the virus. Latently infected cells are detectable in the spleens of IFN-alpha/beta R(-/-) mice earlier than in wild-type mice, and the numbers of latently infected cells are 10-fold higher in the IFN-alpha/beta R(-/-) mice during the acute phase of infection. We find IRF-1 has a critical role in protection from fatal disease, whereas inducible nitric oxide synthase does not appear to be important. The results indicate that innate immune mechanisms are critical for the early control of MHV-68 and may play a role in the establishment of latency.
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PMID:Type I interferons and IRF-1 play a critical role in the control of a gammaherpesvirus infection. 1049 3

Interferon regulatory factor-1(IRF-1) is a transcriptional activator of interferon genes and interferon-inducible genes. It has been shown that IRF-1 functions not only as a regulator of the interferon-responsive system but also as a regulator of cell growth and apoptosis. In addition, it is known that IRF-1 is a short-lived protein, but the mechanism that regulates its stability has not yet been clarified. Here, we show that IRF-1 is degraded via the ubiquitin-proteasome pathway. IRF-1 protein degradation in HeLa and NIH3T3 cells was inhibited by treatment with proteasome-specific inhibitors. Overexpression of IRF-1 protein and ubiquitin in COS7 cells revealed specific multiubiquitination of IRF-1. Although the full-length IRF-1 was unstable, IRF-1 mutants with C-terminal truncations larger than 39 amino acids were found to be almost stable, suggesting that the 39-residue C-terminal region controls the stability of IRF-1. Further analysis of the stability of a green fluorescent protein-fusion protein containing the 39-residue C-terminal region of IRF-1 showed that this C-terminal region confers instability on green fluorescent protein, a normally stable protein, suggesting that this region functions as a protein-degradation signal. Taking the results together, it can be concluded that the 39-residue C-terminal region is necessary and sufficient to control the stability of the IRF-1 protein.
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PMID:Degradation of transcription factor IRF-1 by the ubiquitin-proteasome pathway. The C-terminal region governs the protein stability. 1071 99

Activation of the constitutively expressed interferon-regulatory-factor-1/estrogen receptor fusion protein (IRF-1-hER) in BHK cells was accomplished through the addition of estradiol to the culture medium, which enabled IRF-1 to gain its transcriptional activator function and inhibit cell growth. With the addition of 100 nM estradiol at the beginning of the exponential phase of a cell suspension culture, IRF-1 activation led to a rapid cell growth inhibition but also to a significant decrease in cell viability. To apply this concept in industry, a reduction of the time span of estradiol exposure is required. Cycles of estradiol addition and removal were performed in 2-l stirred tank bioreactors operated under perfusion, where an initial step addition of 100 nM estradiol was performed, followed, after 48-72 h, by a slow dilution with estradiol-free fresh medium (perfusion rate varying between 0.7 and 1.4 per day). Cell growth inhibition was successfully achieved for three consecutive cycles. Diluting the estradiol by perfusing medium without estradiol to concentrations lower than 10 nM led to cell growth and viability recovery independently of the perfusion rate used. These observations permitted the definition of operational strategies for regulated IRF-1 BHK cell growth by pulse estradiol addition, followed by a period of 48 h in the presence of estradiol and by fast perfusion to estradiol concentrations lower than 10 nM. Cell growth response to IRF-1 activation and following estradiol removal by perfusion was also evaluated with an IRF-1-hER regulated clone expressing constitutively Factor VII, where the time of estradiol exposure and perfusion rate were varied. This clone presented a stronger response to IRF-1 activation without an increase in Factor VII specific productivity after cell growth inhibition; this clearly indicates that the stationary phase obtained is clone dependent. This work proves that it is possible to modulate the IRF-1 effect for cell growth control by the manipulation of cycles of addition and removal of estradiol, potentially representing a new generation of culture procedures for controlled growth production purposes.
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PMID:Strategies to modulate BHK cell proliferation by the regulation of IRF-1 expression. 1160 72

The IFN-gamma-induced HLA class II expression in human macrophages was drastically reduced after phagocytosis of Escherichia coli. HLA class II down-modulation depended on phagocytosis of bacteria and could not be reproduced by phagocytosis of inert particles or by treatment with lipopolysaccharide. Study of the kinetics and molecular analysis showed that class II molecules and corresponding mRNA were up-regulated at 6 h after phagocytosis of bacteria. Subsequently, a progressive reduction of mRNA occurred, and, at 72 h, as little as 25% of the class II mRNA level of IFN-gamma-treated control cells was found. This was due to reduced transcription of the class II transcriptional activator CIITA, as a consequence of reduced immediate-early inducible factor (IRF-1) and particularly of reduced phosphorylated Stat-1 homodimers, nuclear factors both necessary for optimal triggering of the CIITA promoter. Failure to sustain IFN-gamma-induced CIITA up-modulation during phagocytosis of bacteria had functional implications, as human macrophages could not adequately process and present antigenic peptides to HLA-DR-restricted antigen-specific T cells. This is the first evidence that phagocytosis of bacteria can down-modulate HLA class II expression in normal human macrophages by acting at the level of expression of CIITA.
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PMID:Block of Stat-1 activation in macrophages phagocytosing bacteria causes reduced transcription of CIITA and consequent impaired antigen presentation. 1198 18

The expression of the transcriptional activator and tumor suppressor IRF-1 induces multiple effects that counteract the growth of tumor cells in vitro and in vivo. These include the inhibition of cell proliferation, the secretion of interferon-beta (IFN-beta), the induction of apoptosis specifically in certain cell types and the induction of a strong T-cell response. Here, we show that apart from its immune-activating properties, IRF-1 expression leads to a reversion of the tumorigenic phenotype of NIH3T3 cells transformed by different oncogenes. This was analysed in detail in a cell line in which the expression of c-Ha-ras and c-myc is under the control of a doxycycline-regulated promoter allowing to switch between the normal and oncogenic cell status. In the same cells, a beta-estradiol activatable IRF-1 fusion protein is expressed. After IRF-1 activation the oncogene-mediated acceleration of the cell cycle is reverted. Further, a complete IRF-1-mediated reversion of the oncogenic phenotype is observed in soft-agar growth assays. IRF-1 activation induces IFN-beta secretion; however, the observed effects are not mediated by IFN-beta. Inhibition of tumor growth is observed in nude mice as long as IRF-1 is active, indicating that neither B- nor T-cells must become activated for tumor growth suppression.
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PMID:IRF-1 reverts the transformed phenotype of oncogenically transformed cells in vitro and in vivo. 1259 91

IRFs [IFN (interferon) regulatory factors] constitute a family of transcription factors involved in IFN signalling and in the development and differentiation of the immune system. IRF-2 has generally been described as an antagonist of IRF-1-mediated transcription of IFN and IFN-inducible genes; however, it has been recently identified as a transcriptional activator of some genes, such as those encoding histone H4, VCAM-1 (vascular cell adhesion molecule-1) and Fas ligand. Biologically, IRF-2 plays an important role in cell growth regulation and has been shown to be a potential oncogene. Studies in knock-out mice have also implicated IRF-2 in the differentiation and functionality of haematopoietic cells. Here we show that IRF-2 expression in a myeloid progenitor cell line leads to reprogramming of these cells towards the megakaryocytic lineage and enables them to respond to thrombopoietin, as assessed by cell morphology and expression of specific differentiation markers. Up-regulation of transcription factors involved in the development of the megakaryocytic lineage, such as GATA-1, GATA-2, FOG-1 (friend of GATA-1) and NF-E2 (nuclear factor-erythroid-2), and transcriptional stimulation of the thrombopoietin receptor were also demonstrated. Our results provide evidence for a key role for IRF-2 in the induction of a programme of megakaryocytic differentiation, and reveal a remarkable functional diversity of this transcription factor in the regulation of cellular responses.
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PMID:Interferon regulatory factor-2 drives megakaryocytic differentiation. 1450 89

The Tat protein is the transcriptional activator of HIV-1 gene expression, which is not only essential for viral replication, but also important in the complex HIV-induced pathogenesis of AIDS, as both an intracellular and an extracellular released protein. Accordingly, Tat is able to profoundly affect cellular gene expression, regulating several cellular functions, also in non-infected cells. We showed recently that Tat induces modification of immunoproteasomes in that it up-regulates LMP7 (low-molecular-mass polypeptide 7) and MECL1 (multicatalytic endopeptidase complex-like 1) subunits and down-modulates the LMP2 subunit, resulting in a change in the generation and presentation of epitopes in the context of MHC class I. In particular, Tat increases presentation of subdominant and cryptic epitopes. In the present study, we investigated the molecular mechanism responsible for the Tat-induced LMP2 down-regulation and show that intracellular Tat represses transcription of the LMP2 gene by competing with STAT1 (signal transducer and activator of transcription 1) for binding to IRF-1 (interferon-regulatory factor-1) on the overlapping ICS-2 (interferon consensus sequence-2)-GAS (gamma-interferon-activated sequence) present in the LMP2 promoter. This element is constitutively occupied in vivo by the unphosphorylated STAT1-IRF-1 complex, which is responsible for the basal transcription of the gene. Sequestration of IRF-1 by intracellular Tat impairs the formation of the complex resulting in lower LMP2 gene transcription and LMP2 protein expression, which is associated with increased proteolytic activity. On the other hand, extracellular Tat induces the expression of LMP2. These effects of Tat provide another effective mechanism by which HIV-1 affects antigen presentation in the context of the MHC class I complex and may have important implications in the use of Tat for vaccination strategies.
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PMID:Intracellular HIV-1 Tat protein represses constitutive LMP2 transcription increasing proteasome activity by interfering with the binding of IRF-1 to STAT1. 1670 66

Interferon (IFN)-gamma-induced expression of indoleamine 2,3-dioxygenase (IDO), an enzyme that inhibits some pathogens by limiting tryptophan availability, is transcriptionally enhanced by tumor necrosis factor (TNF)-alpha. The expression of interferon responsive factor (IRF)-1, an IFN-gamma-induced transcriptional activator critical to IDO regulation, is also enhanced synergistically in response to IFN-gamma and TNF-alpha. The IRF-1 regulatory region contains an IFN-gamma-activated sequence (GAS) and a kappaB site, which bind STAT-1 and NF-kappaB, respectively. The TNF-alpha-mediated increase in STAT-1 activation in IFN-gamma-treated cells enhances IRF-1 transcription; however, the contribution of TNF-alpha-mediated increases in nuclear NF-kappaB is uncertain. To identify whether binding of NF-kappaB upstream of the IRF-1 gene is rate-limiting in IRF-1 expression in response to IFN-gamma and TNF-alpha, a proteasome inhibitor was utilized to maintain nuclear translocation of NF-kappaB at constitutive levels; its effect on IRF-1 expression and IDO-specific transcription was evaluated. By limiting NF-kappaB nuclear translocation, IRF-1 expression in IFN-gamma and TNF-alpha treated cells was maintained at a level comparable to that achieved in response to IFN-gamma alone, and the synergistic increase IDO transcription was blocked, suggesting that increases in NF-kappaB translocation are required for synergistic IDO expression in response to IFN-gamma and TNF-alpha.
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PMID:NF-kappa B activation contributes to indoleamine dioxygenase transcriptional synergy induced by IFN-gamma and tumor necrosis factor-alpha. 1693 Oct 33

Although many animal viruses block the interferon (IFN) signaling pathway, this issue has not been previously investigated in retrovirus-infected cells. For this purpose, an infectious molecular clone of human T-cell leukemia virus type 1 (HTLV-1) was transfected into 293T or HeLa cells and was found to reduce interferon-stimulated response element (ISRE) reporter activity. This effect was independent of expression of the polymerase or envelope products and independent of the ability of Tax to activate the NFkappaB transcriptional pathway. IFN-alpha activation of 6 of 7 endogenous ISRE-regulated genes was also variably reduced, but not IFN-gamma-activated response element-mediated expression of interferon regulatory factor 1. HTLV-1 reduced the phosphorylation of tyrosine kinase 2 (TYK2) and signal transducer and transcriptional activator 2 (STAT2), suggesting a specific effect of HTLV-1 on the ability of an adaptor tyrosine kinase to transfer an IFN signal to the STAT-transcriptional activator complex.
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PMID:Human T-cell leukemia virus type 1 blunts signaling by interferon alpha. 1823 66

Viperin is an antiviral protein whose expression is highly upregulated during viral infections via IFN-dependent and/or IFN-independent pathways. We examined the molecular alterations induced by the transcriptional activator IFN regulatory factor (IRF)-1 and found viperin to be among the group of IRF-1 regulated genes. From these data, it was not possible to distinguish genes that are primary targets of IRF-1 and those that are targets of IRF-1-induced proteins, like IFN-beta. In this study, we show that IRF-1 directly binds to the murine viperin promoter to the two proximal IRF elements and thereby induces viperin expression. Infection studies with embryonal fibroblasts from different gene knock-out mice demonstrate that IRF-1 is essential, whereas the type I IFN system is dispensable for vesicular stomatitis virus induced viperin gene transcription. Further, IRF-1, but not IFN type I, mediates the induction of viperin transcription after IFN-gamma treatment. In contrast, IRF-1 is not required for IFN-independent viperin induction by Newcastle disease virus infection and by infection with a vesicular stomatitis virus mutant that is unable to block IFN expression and secretion. We conclude that the IRF-1 mediated type I IFN independent mechanism of enhanced viperin expression provides a redundant mechanism to protect cells from viral infections. This mechanism becomes important when viruses evade innate immunity by antagonizing the induction and function of the IFN system.
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PMID:IFN regulatory factor-1 bypasses IFN-mediated antiviral effects through viperin gene induction. 2030 29


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