UMLS:C0021051 - FACTA Search

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Query: UMLS:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Heat shock induces the accumulation of misfolded proteins and results in the preferential expression of heat shock proteins, which help the cell to recover from thermal damage. Heat shock is a well known transcriptional activator of the human immunodeficiency virus type 1 long terminal repeat (LTR). We report here that mutations or deletions of the LTR kappaB sites impaired the LTR transcriptional activation by heat shock. Further analysis revealed that, during heat shock recovery, the NF-kappaB p65 and p50 subunits migrated into the nucleus of HeLa cells, bound to DNA, and induced kappaB-dependent reporter gene expression. This NF-kappaB activation did not depend on new transcriptional and/or translational events and on the pro-oxidant state generated by heat shock. It was not concomitant with IkappaBalpha phosphorylation and was not abolished by the expression of IkappaB kinase or IkappaBalpha dominant-negative mutants. Moreover, NF-kappaB activation and migration into the nucleus were not concomitant with IkappaBalpha/beta or p105 degradation. However, during heat shock recovery, NF-kappaB was dissociated from its complexing partners, allowing its migration into the nucleus. Hence, we describe here a novel mechanism for activation of NF-kappaB based on the thermolability of the NF-kappaB.IkappaB complex.
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PMID:NFkappa B-dependent transcriptional activation during heat shock recovery. Thermolability of the NF-kappaB.Ikappa B complex. 1155 96

Infection by the flavivirus West Nile (WNV) is associated with a virus-specific increase of major histocompatibility complex class I (MHC-I) molecules on the cell surface of diploid vertebrate cells. The increased MHC-I cell surface expression is functional and is associated with increased susceptibility to secondary WNV-immune and alloimmune cytotoxic T cells. WNV-induced up-regulation of cell surface MHC-I expression is associated with NF-kappaB activation and increased transcription of MHC-I mRNA. WNV infection increases luciferase activity of RAWa4 long terminal repeat (LTR) cells, which are transfected stably with a plasmid containing 2 NF-kappaB binding sites, the human immunodeficiency virus LTR linked to a luciferase reporter gene. The NF-kappaB-induced complexes are a p50/p65 heterodimer and another faster migrating species containing p50 homodimers. WNV-induced activation of NF-kappaB and the up-regulation of MHC-I were blocked by the protein kinase C inhibitor H-7 and salicylate, both of which block phosphorylation of inhibitor kappaB.
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PMID:Transcriptional regulation of major histocompatibility complex class I by flavivirus West Nile is dependent on NF-kappaB activation. 1157 8

Nuclear factor (NF)-kappaB transcription factors are involved in the control of a large number of normal cellular and organismal processes, such as immune and inflammatory responses, developmental processes, cellular growth, and apoptosis. Transcription of the human immunodeficiency virus type 1 (HIV-1) genome depends on the intracellular environment where the integrate viral DNA is regulated by a complex interplay among viral regulatory proteins, such as Tat, and host cellular transcription factors, such as NF-kappaB, interacting with the viral long terminal repeat region. CBP (CREB-binding protein) and p300, containing an intrinsic histone acetyltransferase (HAT) activity, have emerged as coactivators for various DNA-binding transcription factors. Here, we show that the p50 subunit as well as the p50/p65 of NF-kappaB, and not other factors such as SP1, TFIIB, polymerase II, TFIIA, or p65, can be acetylated by CBP/p300 HAT domain. Acetylation of p50 was completely dependent on the presence of both HAT domain and Tat proteins, implying that Tat influences the transcription machinery by aiding CBP/p300 to acquire new partners and increase its functional repertoire. Three lysines, Lys-431, Lys-440, and Lys-441 in p50 were all acetylated in vitro, and a sequence similarity among p50, p53, Tat, and activin receptor type I on these particular lysines was observed. All proteins have been shown to be acetylated by the CBP/p300 HAT domain. Acetylated p50 increases its DNA binding properties, as evident by streptavidin/biotin pull-down assays when using labeled NF-kappaB oligonucleotides. Increased DNA binding on HIV-1 long terminal repeat coincided with increases in the rate of transcription. Therefore, we propose that acetylation of the DNA binding domain of NF-kappaB aids in nuclear translocation and enhanced transcription and also suggest that the substrate specificity of CBP/p300 can be altered by small peptide molecules, such as HIV-encoded Tat.
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PMID:Enhancement of nuclear factor-kappa B acetylation by coactivator p300 and HIV-1 Tat proteins. 1173 81

NF-kappaB is an inducible transcription factor involved in the immune response, inflammation, and viral transcription. To address how the two NF-kappaB and three Sp1 binding sites of the human immunodeficiency virus (HIV) long terminal repeat (LTR) control multiple activator assembly and transcription, we first observed and compared unique conformations between the crystallographic structure of the NF-kappaB p50.p65 heterodimer bound to the uPA-kappaB target site to that of the p50.p65.HIV-kappaB complex. Next, cooperativity between two NF-kappaB molecules bound to tandem HIV-kappaB sequences was measured as well as that of NF-kappaB and transcription factor Sp1 when bound to adjacent sites. The cooperativity of hybrid HIV-LTR enhancers was measured with the 3' kappaB site converted to uPA-kappaB or to interferon beta gene enhancer kappaB. The hybrids were defective in transcriptional activator assembly and less active transcriptionally. These functional differences correlate with observed conformational differences and demonstrate that distinct kappaB DNA sequences function as allosteric regulators in a gene-specific manner.
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PMID:The kappa B DNA sequence from the HIV long terminal repeat functions as an allosteric regulator of HIV transcription. 1197 Sep 49

RelA-associated inhibitor (RAI) is an inhibitor of nuclear factor kappaB (NF-kappaB) newly identified by yeast two-hybrid screen as an interacting protein of the p65 (RelA) subunit. In this study, we attempted to examine the effect of RAI on transcription and replication of human immunodeficiency virus type 1 (HIV-1). We found that RAI inhibited gene expression from the HIV-1 long terminal repeat (LTR) even at the basal level. Upon in vitro DNA-binding reactions, RAI could directly block the DNA-binding of p65 subunit of NF-kappaB but not that of the p50 subunit or AP1. We found that RAI could also inhibit the DNA-binding of Sp1 and thus inhibit the basal HIV-1 promoter activity. We further examined the effects of RAI on Sp1 and found that RAI colocalizes with Sp1 in the nucleus and interacts with Sp1 in vitro and in vivo. Moreover, we found that RAI efficiently blocked the HIV-1 replication when cotransfected with a full-length HIV-1 clone. These findings indicate that RAI acts as an efficient inhibitor of HIV-1 gene expression in which both NF-kappaB and Sp1 play major roles.
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PMID:RelA-associated inhibitor blocks transcription of human immunodeficiency virus type 1 by inhibiting NF-kappaB and Sp1 actions. 1213 7

The transcription factor NF-kappaB plays a central role in the human immunodeficiency virus type 1 (HIV-1) activation pathway. HIV-1 transcription is also regulated by protein acetylation, since treatment with deacetylase inhibitors such as trichostatin A (TSA) or sodium butyrate (NaBut) markedly induces HIV-1 transcriptional activity of the long terminal repeat (LTR) promoter. Here, we demonstrate that TSA (NaBut) synergized with both ectopically expressed p50/p65 and tumor necrosis factor alpha/SF2 (TNF)-induced NF-kappaB to activate the LTR. This was confirmed for LTRs from subtypes A through G of the HIV-1 major group, with a positive correlation between the number of kappaB sites present in the LTRs and the amplitude of the TNF-TSA synergism. Mechanistically, TSA (NaBut) delayed the cytoplasmic recovery of the inhibitory protein IkappaBalpha. This coincided with a prolonged intranuclear presence and DNA binding activity of NF-kappaB. The physiological relevance of the TNF-TSA (NaBut) synergism was shown on HIV-1 replication in both acutely and latently HIV-infected cell lines. Therefore, our results open new therapeutic strategies aimed at decreasing or eliminating the pool of latently HIV-infected reservoirs by forcing viral expression.
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PMID:Synergistic activation of human immunodeficiency virus type 1 promoter activity by NF-kappaB and inhibitors of deacetylases: potential perspectives for the development of therapeutic strategies. 1236 51

Treatment of OM10.1 cells latently infected with human immunodeficiency virus type 1 (HIV-1) with phorbol ester and calcium ionophore (A23187) induced virus replication which was blocked by N-Ac-Leu-Leu-norleucinal (ALLnL), a calpain inhibitor I, and not by lactacystin, a specific proteasome inhibitor. When the purified NF-kappa B/I kappa B complex was treated with mu-calpain, the specific DNA-binding activity was demonstrated by using electrophoretic mobility shift assay in vitro. This effect of mu-calpain was inhibited by ALLnL and calpastatin and not by lactacystin. In fact, we found that mu-calpain efficiently degraded I kappa B alpha. Furthermore, our Western blotting analysis has revealed that mu-calpain cleaves I kappa B alpha at its N-terminal and C-terminal regions that were previously reported to be involved in the interaction with NF-kappa B p65. These observations indicate that in monocyte/macrophage cells calcium signaling is involved in NF-kappa B activation through activation of calpain and thus calpain inhibitors may be effective in inhibiting the activation of latently infected HIV.
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PMID:Calpain is involved in the HIV replication from the latently infected OM10.1 cells. 1267 May 2

NF-kappaB/IkappaB proteins play a major role in the transcriptional regulation of human immunodeficiency virus, type-1 (HIV-1). In the case of simian immunodeficiency virus (SIV) the cellular factors required for the viral transcriptional activation and replication in vivo remain undefined. Here, we demonstrate that the p50/p65 NF-kappaB transcription factors enhanced the Tat-mediated transcriptional activation of SIVmac239. In addition, IkappaB-alpha S32/36A, a proteolysis-resistant inhibitor of NF-kappaB, strongly inhibited the Tat-mediated transactivation of SIVmac239. Based on this evidence, we have generated a self-regulatory virus by endowing the genome of SIV-mac239 with IkappaB-alpha S32/36A; the resulting virus, SIVIkappaB-alpha S32/36A, was nef-deleted and expressed the NF-kappaB inhibitor. We show that SIVIkappaB-alpha S32/36A was highly and stably attenuated both in cell cultures and in vivo in rhesus macaque as compared with a nef-deleted control virus. Moreover, the high attenuation was associated with a robust immune response as measured by SIV-specific antibody production, tetramer, and intracellular IFN-gamma staining of SIV gag-specific T cells. These results underscore the crucial role of NF-kappaB/IkappaB proteins in the regulation of SIV replication both in cell cultures and in monkeys. Thus, inhibitors of NF-kappaB could efficiently counteract the SIV/HIV replication in vivo and may assist in developing novel approaches for AIDS vaccine and therapy.
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PMID:High attenuation and immunogenicity of a simian immunodeficiency virus expressing a proteolysis-resistant inhibitor of NF-kappaB. 1459 21

Cohesins hold sister chromatids together from DNA replication until they are segregated. Although cohesins Smc1, Smc3, and Scc1/Rad21 are involved in chromatid cohesion and other cellular processes, little is known about the other mitotic cohesin subunit, Scc3/STAG. Here we describe STAG/Scc3, which may act as a transcriptional co-activator. STAG2 is able to enhance the activity of the tumor necrosis factor alpha, the CD69, and the human immunodeficiency virus long terminal repeat promoters in a NF-kappaB-dependent manner. In addition, STAG2 interacts with the viral transactivator Tat and enhances the Tat-mediated activation of the human immunodeficiency virus long terminal repeat promoter. Moreover, STAG2 co-activates a multimeric NF-kappaB reporter construct and enhances the activity of the transactivation domain of p65/RelA in a Gal4 system. This function is dependent on one of the LXXLL co-activation motives present in this cohesin and is substantiated by the interaction of STAG2 with the p65 subunit of NF-kappaB. These results describe a novel activity for cohesins, suggesting a role for STAG/Scc3 in transcriptional regulation.
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PMID:Evidence of a transcriptional co-activator function of cohesin STAG/SA/Scc3. 1466 Jun 24

The NR1 gene undergoes induction in neurogenesis mainly via promoter de-repression, and up-regulation during neuronal differentiation by undefined mechanism(s). Here, we show that in the distal region the NR1 promoter has an active NF-kappaB site sharing the consensus with the immunoglobulin (Ig)/human immunodeficiency virus NF-kappaB site. Mutation of this site significantly reduced NR1 promoter up-regulation during neuronal differentiation of P19 cells. Electrophoretic mobility shift assays revealed that P19 nuclei constitutively contained p50 and that neuronal differentiation not only increased nuclear p50 but also induced p65 nuclear translocation. Responding to this change was an up-regulation of NF-kappaB-dependent promoter activity. However, inhibition of NF-kappaB nuclear translocation by an IkappaBalpha super-repressor or decoy DNA only moderately inhibited NR1 promoter up-regulation. Interestingly, the NR1 NF-kappaB site strongly interacted with Sp3/Sp1, instead of NF-kappaB factors, in P19 nuclear extracts. This interaction was reduced for Sp3 following neuronal differentiation, accompanied by dynamic expression of Sp factors. Cotransfection of Sp factors (Sp1, 3, or 4) upregulated the NR1 NF-kappaB site dramatically in differentiated neurons, but only moderately in undifferentiated P19 cells. This up-regulation was strong for Sp1 in differentiated cells and for Sp3 in undifferentiated cells. Chromatin-immunoprecipitation assays further demonstrated that Sp1 and Sp3 interacted with the NR1 NF-kappaB site in situ, and Sp3 lost its interaction after neuronal differentiation. We conclude that the NF-kappaB site positively regulates the NR1 promoter during neuronal differentiation via interacting mainly with Sp factors and neuronal differentiation reduces the effect of Sp3 factor on this site.
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PMID:NF-kappaB site interacts with Sp factors and up-regulates the NR1 promoter during neuronal differentiation. 1497 Feb 36

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