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)

Interferon regulatory factor 1 (IRF-1), a transcriptional activator, and its antagonistic repressor, IRF-2, were originally identified as regulators of the type I interferon (IFN) system. We have generated mice deficient in either IRF-1 or IRF-2 by gene targeting in embryonic stem cells. IRF-1-deficient fibroblasts lacked the normally observed type I IFN induction by poly(I):poly(C), while they induced type I IFN to similar levels as the wild type following Newcastle disease virus (NDV) infection. In contrast, IRF-2-deficient fibroblasts showed up-regulated type I IFN induction by NDV infection. A profound reduction of TCR alpha beta+CD4-CD8+ T cells in IRF-1-deficient mice, with a thymocyte developmental defect, reveals a critical role for IRF-1 in T cell development. IRF-2-deficient mice exhibited bone marrow suppression of hematopoiesis and B lymphopoiesis and mortality following lymphocytic choriomeningitis virus infection.
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PMID:Targeted disruption of IRF-1 or IRF-2 results in abnormal type I IFN gene induction and aberrant lymphocyte development. 840 3

Herpes simplex virus type 1 infected cell polypeptide 4 (HSV-1 ICP4) is a multifunctional phosphoprotein that is essential for viral infection. It is both a repressor and an activator of viral gene expression depending upon the promoter. ICP4 represses transcription from its own promoter. In the present study, we used general transcription factors from HeLa cell nuclear extracts, recombinant TATA binding protein (TBP) and TFIIB, and the transcriptional activator Sp1 to reconstitute in vitro transcription for the ICP4 promoter and to examine the effects of purified ICP4 on transcription. ICP4 was able to effectively repress Sp1-induced transcription from ICP4 promoter templates that contain one or multiple Sp1 binding sites. The observed inhibition required the ICP4 binding site that spans the transcription initiation site. ICP4 did not inhibit basal transcription as inferred by its inability to inhibit transcription when (i) Sp1 was not included in transcription reactions, (ii) the templates contained no Sp1 binding sites, and (iii) TBP was used in place of TFIID in the reactions. The in vitro observations were consistent with the behavior of the same constructs expressed in cells from the herpes simplex virus type 1 genome. DNase I footprinting experiments revealed that ICP4 could co-occupy the ICP4 promoter region with TBP-TFIIB, indicating that ICP4 does not necessarily exclude these factors from binding to the TATA region. The data suggest that the repressive effects of ICP4 observed in this study result from ICP4 interfering with the interactions contributing to Sp1-induced transcription.
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PMID:Herpes simplex virus infected cell polypeptide 4 preferentially represses Sp1-activated over basal transcription from its own promoter. 841 35

The activation of natural killer (NK) cells, cytotoxic lymphocytes capable of major histocompatibility complex (MHC)-unrestricted killing and early antiviral defense, is temporally related to the increased interferon (IFN)-alpha/beta production that is seen in the viral infection of mice. Type I IFN (IFN-alpha/beta) are expressed in many cell types early after primary viral infection and have been shown to mediate resistance against a variety of viruses. In this study, the role of the transcriptional activator IFN regulatory factor-1 (IRF-1) in murine NK cell activity was assessed. IRF-1-deficient mice displayed a normal frequency of NK marker-positive cells, but exhibited greatly reduced NK cell-mediated cytotoxicity after both virus infection and stimulation with the IFN inducer polyinosinic:polycytidilic acid in vivo. In vitro, cytolytic activity in IRF-1-deficient NK cells remained defective after stimulation with IFN-beta, IL-2, and IL-12. IRF-1-deficient mice were unable to eliminate syngeneic MHC class I-negative tumor cells in vivo, and had a reduced ability to reject parental semi-allogeneic donor cells from the circulation. Thus, IRF-1 is essential for the induction of NK cell-mediated cytotoxicity and for the in vivo effector functions that are mediated by this activity.
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PMID:The transcription factor interferon regulatory factor-1 is essential for natural killer cell function in vivo. 892 Aug 93

Interferon regulatory factor-3 (IRF-3) was found to specifically interact with HPV16 E6 in a yeast two-hybrid screen. IRF-3 is activated by the presence of double-stranded RNA or by virus infection to form a stable complex with other transcriptional regulators that bind to the regulatory elements of the IFNbeta promoter. We show that IRF-3 is a potent transcriptional activator and demonstrate that HPV16 E6 can inhibit its transactivation function. The expression of HPV16 E6 in primary human keratinocytes inhibits the induction of IFNbeta mRNA following Sendai virus infection. The binding of HPV16 E6 to IRF-3 does not result in its ubiquitination or degradation. We propose that the interaction of E6 with IRF-3 and the inhibition of IRF-3's transcriptional activity may provide the virus a means to circumvent the normal antiviral response of an HPV16-infected cell.
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PMID:Human papillomavirus 16 E6 oncoprotein binds to interferon regulatory factor-3 and inhibits its transcriptional activity. 964 9

During genital human papillomavirus (HPV) infection several cytokines are released, such as interleukin-1 (IL-1), tumor necrosis factoralpha (TNFalpha), IL-6, and IL-8. These cytokines may play a role in the immune surveillance against viral infection. Two of these cytokines, IL-1 and TNFalpha, suppress the transcription of the HPV16 early genes. CAATT/ enhancer binding protein, (C/EBPbeta), which is activated by IL-1 and TNFalpha, has been suggested to act as a mediator of this transcriptional downregulation. C/EBPbeta contains three different translation initiation sites that can lead probably by leaky ribosome scanning to the generation of three isoforms of C/EBPbeta, namely full-length C/EBPbeta, liver enriched transcriptional activator protein (LAP), and liver enriched inhibitory protein (LIP). When transiently expressed in C33A and HeLa cells, the first two C/EBPbeta isoforms activate the HPV16 long control region (LCR). LIP, which acts as an antagonist of C/EBPbeta, represses the HPV16 LCR activity. Our observation that treatment of HeLa cells with IL-1 leads to induction of LIP supports the hypothesis that the LCR downregulation by IL-1 is mediated by LIP.
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PMID:Transcriptional regulation of human papillomavirus type 16 LCR by different C/EBPbeta isoforms. 1082 Apr 87

The human survival motor neuron (SMN) gene is the spinal muscular atrophy-determining gene, and a knockout of the murine Smn gene results in preembryonic lethality. Here we show that SMN can directly interact in vitro and in vivo with the large nonstructural protein NS1 of the autonomous parvovirus minute virus of mice (MVM), a protein essential for viral replication and a potent transcriptional activator. Typically, SMN localizes within nuclear Cajal bodies and diffusely in the cytoplasm. Following transient NS1expression, SMN and NS1 colocalize within Cajal bodies. At early time points following parvovirus infection, NS1 fails to colocalize with SMN within Cajal bodies; however, during the course of MVM infection, dramatic nuclear alterations occur. Formerly distinct nuclear bodies such as Cajal bodies, promyelocytic leukemia gene product (PML) oncogenic domains (PODs), speckles, and autonomous parvovirus-associated replication (APAR) bodies are seen aggregating at later points in infection. These newly formed large nuclear bodies (termed SMN-associated APAR bodies) are active sites of viral replication and viral capsid assembly. These results highlight the transient nature of nuclear bodies and their contents and identify a novel nuclear body formed during infection. Furthermore, simple transient expression of the viral nonstructural proteins is insufficient to induce this nuclear reorganization, suggesting that this event is induced specifically by a step in the viral infection process.
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PMID:Minute virus of mice NS1 interacts with the SMN protein, and they colocalize in novel nuclear bodies induced by parvovirus infection. 1190 29

IE1, a principal transcriptional activator of the baculovirus Bombyx mori nucleopolyhedrovirus (BmNPV), is an essential factor for viral DNA replication. During viral infection, IE1 accumulates in discrete subnuclear structures where viral DNA replication occurs. To analyse the dynamic properties of IE1, we monitored green fluorescent protein-tagged IE1 (IE1-GFP) in BmNPV-infected B. mori cells by live-cell microscopy. Time-lapse imaging showed that IE1-associated structures gradually expanded and occasionally fused with one another, while photobleaching experiments revealed that IE1-GFP was relatively immobile inside the IE1-associated structures. To investigate the spatial relationships between IE1 and viral structural proteins in infected cells, three GFP-tagged viral components were expressed together with DsRed-tagged IE1. Two structural proteins that constitute the occlusion-derived virus (ODV), P91-GFP and GFP-ODV-E25, localized to the periphery of the IE1-associated structures. While local accumulations of these proteins were often in contact with the IE1-associated structures, they did not extend beyond the boundaries of the structures. In contrast, the major capsid protein VP39-GFP predominantly accumulated within the IE1-associated structures. These data indicated, in conjunction with the finding of a high DNA content in the structures, that IE1 localizes to the virogenic stroma and therefore support the prediction previously proposed that the virogenic stroma is a site for viral DNA replication as well as for the assembly of nucleocapsids.
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PMID:Analysis of baculovirus IE1 in living cells: dynamics and spatial relationships to viral structural proteins. 1555 30

Post-translational modifications of proteins have critical roles in many cellular processes because they can cause rapid changes in the functions of preexisting proteins, multiprotein complexes and subcellular structures. Sumoylation, a ubiquitin-like dynamic and reversible post-translational modification system, is an enzymatic cascade leading to the covalent attachment of SUMO to it target proteins. This modification involves three steps and different enzymes: SUMO-activating enzyme E1 (SAE1/SAE2), SUMO-conjugating enzyme E2 (UBC9), SUMO ligases E3s, and SUMO cleaving enzymes. Although the identification of SUMO-modified substrates has progressed rapidly, the biological function of SUMO and regulation of SUMO conjugation are still not well understood. Some viral proteins have been identified as substrates for SUMO modification as well as altering the sumoylation status of host cell proteins. We have been studying an unusual adenoviral protein, Gam1, a strong and global transcriptional activator of both viral and cellular genes that inactivates HDAC1. We have recently expanded the known functions of Gam1 by demonstrating that Gam1 also inhibits the SUMO pathway by interfering with the activity of E1 heterodimer (SAE1/SAE2), leading to the accumulation of SUMO-unmodified substrates. Our data provides a clear example of the effects of a viral infection on host sumoylation and supports the idea that viruses have multifunctional protein that can target essential biochemical pathways.
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PMID:Gam1 and the SUMO pathway. 1587 61

The retroviral phenomenon of superinfection resistance (SIR) defines an interference mechanism that is established after primary infection, preventing the infected cell from being superinfected by a similar type of virus. This review describes our present understanding of the underlying mechanisms of SIR established by three characteristic retroviruses: Murine Leukaemia Virus (MuLV), Foamy Virus (FV), and Human Immunodeficiency Virus (HIV). In addition, SIR is discussed with respect to HIV superinfection of humans. MuLV resistant mice exhibit two genetic resistance traits related to SIR. The cellular Fv4 gene expresses an Env related protein that establishes resistance against MuLV infection. Another mouse gene (Fv1) mediates MuLV resistance by expression of a sequence that is distantly related to Gag and that blocks the viral infection after the reverse transcription step. FVs induce two distinct mechanisms of superinfection resistance. First, expression of the Env protein results in SIR, probably by occupancy of the cellular receptors for FV entry. Second, an increase in the concentration of the viral Bet (Between-env-and-LTR-1-and-2) protein reduces proviral FV gene expression by inhibition of the transcriptional activator protein Tas (Transactivator of spumaviruses). In contrast to SIR in FV and MuLV infection, the underlying mechanism of SIR in HIV-infected cells is poorly understood. CD4 receptor down-modulation, a major characteristic of HIV-infected cells, has been proposed to be the main mechanism of SIR against HIV, but data have been contradictory. Several recent studies report the occurrence of HIV superinfection in humans; an event associated with the generation of recombinant HIV strains and possibly with increased disease progression. The role of SIR in protecting patients from HIV superinfection has not been studied so far. The phenomenon of SIR may also be important in the protection of primates that are vaccinated with live attenuated simian immunodeficiency virus (SIV) against pathogenic SIV variants. As primate models of SIV infection closely resemble HIV infection, a better knowledge of SIR-induced mechanisms could contribute to the development of an HIV vaccine or other antiviral strategies.
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PMID:Retroviral superinfection resistance. 1610 23

Nuclear factor (NF)-kappaB is a family of seven structurally related transcription factors that play a central role in cardiovascular growth, stress response, and inflammation by controlling gene network expression. Although the NF- kappaB subunits are ubiquitously expressed, their actions are regulated in a celltype and stimulus-specific manner, allowing for a diverse spectrum of effects. For example, NF-kappalB is activated by cytokines, reactive oxygen species, bacterial cell wall products, vasopressors, viral infection, and DNA damage. Recent molecular dissection of its mechanisms for activation has shown that NF-kappalB can be induced by the so-called "canonical" and "noncanonical" pathways, leading to distinct patterns in the individual subunits activated and downstream genetic responses produced. The canonical pathway involves activating the IkappalB kinase (IKK) with subsequent phosphorylation-induced proteolysis of the IkappaBalpha inhibitors and consequent nuclear translocation of the Rel A transcriptional activator. Recent work using high-density oligonucleotide arrays have begun to systematically dissect the scope of the gene network under canonical NF-kappaB control and have yielded important insights into biological pathways controlled by it. This pathway controls expression of noncontiguous, functionally discrete groups of genes ("regulons"), whose temporal expression occurs in waves. Moreover, its mode of activation (oscillatory or monophasic) plays an important role in determining the spectrum of target genes expressed. By contrast, the noncanonical NF-kappaB activation pathway involves activating the NF-kappaB inducing kinase (NIK) to stimulate IKKalpha-induced phosphorylation and proteolytic processing of the 100-kDa cytoplasmic NF-kappaB2 precursor. Activated NF-kappaB2 then forms a complex with Rel B and NIK to translocate into the nucleus thereby activating a distinct set of genes. Although the noncanonical pathway has been most clearly linked to control of adaptive immunity, recent intriguing studies have implicated this pathway in viral induced stress response and in the metabolic syndrome. In this way, a single family of transcription factors can respond to diverse stimuli to regulate cardiovascular homeostasis.
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PMID:The NF-kappaB regulatory network. 1730 19


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