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)

The human immunodeficiency virus (HIV) trans- activator protein, Tat, stimulates transcription from the viral long-terminal repeats (LTR) through an RNA hairpin element, trans-activation responsive region (TAR). We and others have shown that trans-activator protein (Tat)-associated histone acetyltransferases (TAHs), p300 and p300/CBP-associating factor (PCAF), assist functionally in the activation of chromosomally integrated HIV-1 LTR. Here, we show that p300 and PCAF also directly acetylate Tat. We defined two sites of acetylation located in different functional domains of Tat. p300 acetylated Lys50 in the TAR RNA binding domain, while PCAF acetylated Lys28 in the activation domain of Tat. In support of a functional role for acetylation in vivo, histone deacetylase inhibitor (trichostatin A) synergized with Tat in transcriptional activation of the HIV-1 LTR. Synergism was TAR-dependent and required the intact presence of both Lys28 and Lys50. Mechanistically, acetylation at Lys28 by PCAF enhanced Tat binding to the Tat-associated kinase, CDK9/P-TEFb, while acetylation by p300 at Lys50 of Tat promoted the dissociation of Tat from TAR RNA that occurs during early transcription elongation. These data suggest that acetylation of Tat regulates two discrete and functionally critical steps in transcription, binding to an RNAP II CTD-kinase and release of Tat from TAR RNA.
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PMID:HIV-1 tat transcriptional activity is regulated by acetylation. 1054 21

Enigmatic mechanisms restore the resting state in activated lymphocytes following human immunodeficiency virus type 1 (HIV-1) infection, rarely allowing persistent nonproductive infection. We detail a mechanism whereby cellular factors could establish virological latency. The transcription factors YY1 and LSF cooperate in repression of transcription from the HIV-1 long terminal repeat (LTR). LSF recruits YY1 to the LTR via the zinc fingers of YY1. The first two zinc fingers were observed to be sufficient for this interaction in vitro. A mutant of LSF incapable of binding DNA blocked repression. Like other transcriptional repressors, YY1 can function via recruitment of histone deacetylase (HDAC). We find that HDAC1 copurifies with the LTR-binding YY1-LSF repressor complex, the domain of YY1 that interacts with HDAC1 is required to repress the HIV-1 promoter, expression of HDAC1 augments repression of the LTR by YY1, and the deacetylase inhibitor trichostatin A blocks repression mediated by YY1. This novel link between HDAC recruitment and inhibition of HIV-1 expression by YY1 and LSF, in the natural context of a viral promoter integrated into chromosomal DNA, is the first demonstration of a molecular mechanism of repression of HIV-1. YY1 and LSF may establish transcriptional and virological latency of HIV, a state that has recently been recognized in vivo and has significant implications for the long-term treatment of AIDS.
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PMID:The human factors YY1 and LSF repress the human immunodeficiency virus type 1 long terminal repeat via recruitment of histone deacetylase 1. 1088 18

Repression of human immunodeficiency virus type 1 (HIV-1) transcription may contribute to the establishment or maintenance of proviral quiescence in infected CD4(+) cells. The host factors YY1 and LSF cooperatively recruit histone deacetylase 1 (HDAC1) to the HIV-1 long terminal repeat (LTR) and inhibit transcription. We demonstrate here regulation of occupancy of HDAC1 at a positioned nucleosome (nuc 1) near the transcription start site of integrated LTR. We find that expression of YY1 increases occupancy by HDAC1, decreases acetylation at nuc 1, and downregulates LTR expression. HDAC1 recruitment and histone hypoacetylation were also seen when Tat activation was inhibited by the overexpression of YY1. A YY1 mutant without an HDAC1 interaction domain and incompetent to inhibit LTR activation fails to recruit HDAC1 to LTR or decrease nuc 1 acetylation. Further, expression of a dominant-negative mutant of LSF (dnLSF), which inhibits LSF occupancy and LTR repression, results in acetylation and decreased HDAC1 occupancy at nuc 1. Conversely, exposure of cells to the histone deacetylase inhibitor trichostatin A or activation of LTR expression by HIV-1 Tat results in the displacement of HDAC1 from nuc 1, in association with increased acetylation of histone H4. Recruitment of HDAC1 to the LTR nuc 1 can counteract Tat activation and repress LTR expression. Significantly, when repression is overcome, LTR activation is associated with decreased HDAC1 occupancy. Since the persistence of integrated HIV-1 genomes despite potent suppression of viral replication is a major obstacle for current antiretroviral therapy, strategies to selectively disrupt the quiescence of chromosomal provirus may play a role in the future treatment of AIDS.
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PMID:Counterregulation of chromatin deacetylation and histone deacetylase occupancy at the integrated promoter of human immunodeficiency virus type 1 (HIV-1) by the HIV-1 repressor YY1 and HIV-1 activator Tat. 1194 Jun 54

The human immunodeficiency virus type 1 (HIV-1) long terminal repeat (LTR) controls the expression of HIV-1 viral genes and thus viral propagation and pathology. Numerous host factors participate in the regulation of the LTR promoter, including thyroid hormone (T(3)) receptor (TR). In vitro, TR can bind to the promoter region containing the NF-kappa B and Sp1 binding sites. Using the frog oocyte as a model system for chromatin assembly mimicking that in somatic cells, we demonstrated that TR alone and TR/RXR (9-cis retinoic acid receptor) can bind to the LTR in vivo independently of T(3). Consistent with their ability to bind the LTR, both TR and TR/RXR can regulate LTR activity in vivo. In addition, our analysis of the plasmid minichromosome shows that T(3)-bound TR disrupts the normal nucleosomal array structure. Chromatin immunoprecipitation assays with anti-acetylated-histone antibodies revealed that unliganded TR and TR/RXR reduce the local histone acetylation levels at the HIV-1 LTR while T(3) treatment reverses this reduction. We further demonstrated that unliganded TR recruits corepressors and at least one histone deacetylase. These results suggest that chromatin remodeling, including histone acetylation and chromatin disruption, is important for T(3) regulation of the HIV-1 LTR in vivo.
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PMID:Chromatin disruption and histone acetylation in regulation of the human immunodeficiency virus type 1 long terminal repeat by thyroid hormone receptor. 1202 18

Promoter and enhancer elements can influence alternative splicing, but the basis for this phenomenon is not well understood. Here we investigated how different transcriptional activators affect the decision between inclusion and exclusion (skipping) of the fibronectin EDI exon. A mutant of the acidic VP16 activation domain called SW6 that preferentially inhibits polymerase II (pol II) elongation caused a reduction in EDI exon skipping. Exon skipping was fully restored in the presence of the SW6 mutant by either the SV40 enhancer in cis or the human immunodeficiency virus (HIV) Tat in trans, both of which specifically stimulate pol II elongation. HIV Tat also cooperated with the Sp1 and CTF activation domains to enhance transcript elongation and EDI skipping. The extent of exon skipping correlated with the efficiency with which pol II transcripts reach the 3' end of the gene but not with the overall fold increase in transcript levels caused by different activators. The ability of activators to enhance elongation by RNA polymerase II therefore correlates with their ability to enhance exon skipping. Consistent with this observation, the elongation inhibitor dichlororibofuranosylbenzimidazole (DRB) enhanced EDI inclusion. Conversely, the histone deacetylase inhibitor trichostatin A that is thought to stimulate elongation caused a modest inhibition of EDI inclusion. Together our results support a kinetic coupling model in which the rate of transcript elongation determines the outcome of two competing splicing reactions that occur co-transcriptionally. Rapid, highly processive transcription favors EDI exon skipping, whereas slower, less processive transcription favors inclusion.
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PMID:Transcriptional activators differ in their abilities to control alternative splicing. 1222 Nov 5

The host factor LSF represses the human immunodeficiency virus type 1 long terminal repeat (LTR) by mediating recruitment of histone deacetylase. We show that pyrrole-imidazole polyamides targeted to the LTR can specifically block LSF binding both in vitro and within cells via direct access to chromatin, resulting in increased LTR expression.
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PMID:Targeted derepression of the human immunodeficiency virus type 1 long terminal repeat by pyrrole-imidazole polyamides. 1241 76

The full-length gene encoding the histone deacetylase (HDAC)-like amidohydrolase (HDAH) from Bordetella or Alcaligenes (Bordetella/Alcaligenes) strain FB188 (DSM 11172) was cloned using degenerate primer PCR combined with inverse-PCR techniques and ultimately expressed in Escherichia coli. The expressed enzyme was biochemically characterized and found to be similar to the native enzyme for all properties examined. Nucleotide sequence analysis revealed an open reading frame of 1,110 bp which encodes a polypeptide with a theoretical molecular mass of 39 kDa. Interestingly, peptide sequencing disclosed that the N-terminal methionine is lacking in the mature wild-type enzyme, presumably due to the action of methionyl aminopeptidase. Sequence database searches suggest that the new amidohydrolase belongs to the HDAC superfamily, with the closest homologs being found in the subfamily assigned acetylpolyamine amidohydrolases (APAH). The APAH subfamily comprises enzymes or putative enzymes from such diverse microorganisms as Pseudomonas aeruginosa, Archaeoglobus fulgidus, and the actinomycete Mycoplana ramosa (formerly M. bullata). The FB188 HDAH, however, is only moderately active in catalyzing the deacetylation of acetylpolyamines. In fact, FB188 HDAH exhibits significant activity in standard HDAC assays and is inhibited by known HDAC inhibitors such as trichostatin A and suberoylanilide hydroxamic acid (SAHA). Several lines of evidence indicate that the FB188 HDAH is very similar to class 1 and 2 HDACs and contains a Zn(2+) ion in the active site which contributes significantly to catalytic activity. Initial biotechnological applications demonstrated the extensive substrate spectrum and broad optimum pH range to be excellent criteria for using the new HDAH from Bordetella/Alcaligenes strain FB188 as a biocatalyst in technical biotransformations, e.g., within the scope of human immunodeficiency virus reverse transcriptase inhibitor synthesis.
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PMID:A new amidohydrolase from Bordetella or Alcaligenes strain FB188 with similarities to histone deacetylases. 1506 35

Elucidation of the mechanism of transcriptional silencing of human immunodeficiency virus type 1 (HIV-1) provirus in latently infected cells is crucial to understand the pathophysiology of HIV-1 infection and to develop novel therapies. Here we demonstrate that AP-4 is responsible for the transcriptional repression of HIV-1. We found that AP-4 site within the viral long terminal repeat (LTR) is well conserved in the majority of HIV-1 subtypes and that AP-4 represses HIV-1 gene expression by recruiting histone deacetylase (HDAC) 1 as well as by masking TATA-binding protein to TATA box. AP-4-mediated transcriptional repression was inhibited by an HDAC inhibitor, tricostatin A, and could be exerted even at distant locations from the TATA box. In addition, AP-4 interacted with HDAC1 both in vivo and in vitro. Moreover, chromatin immunoprecipitation assays have revealed that AP-4 and HDAC1 are present in the HIV-1 LTR promoter in latently infected ACH2 and U1 cells, and they are dissociated from the promoter concomitantly with the association of acetylated histone H3, TBP, and RNA polymerase II upon TNF-alpha stimulation of HIV-1 replication. Furthermore, when AP-4 is knocked down by siRNA, HIV-1 production was greatly augmented in cells transfected with a full-length HIV-1 clone. These results suggest that AP-4 may be responsible for transcriptional quiescence of latent HIV-1 provirus and give a molecular basis to the reported efficacy of combination therapy of conventional anti-HIV drugs with an HDAC inhibitor in accelerating the clearance of HIV-1 from individuals infected with the virus.
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PMID:Transcriptional repression of human immunodeficiency virus type 1 by AP-4. 1654 Apr 71

The pathogenesis of human immunodeficiency virus type 1 (HIV-1)-associated dementia is mediated by neuronal dysfunction and death, brought about by the action of soluble neurotoxic factors that are released by virally infected macrophages and microglia. Paradoxically, many candidate HIV-1 neurotoxins also possess the ability to activate nuclear factor-kappa B (NF-kappaB), which has a potent pro-survival effect in primary neurons. The present study explored this conundrum and investigated why NF-kappaB might fail to protect neurons that are exposed to candidate HIV-1 neurotoxins. Here, we evaluated the ability of virus-depleted conditioned medium produced by HIV-1-infected human macrophages (HIV-MCMs) to modulate NF-kappaB activity in neurons. We demonstrated that HIV-MCMs inhibit the normal signaling pathways that lead to NF-kappaB activation in neurons. This inhibitory effect of HIV-MCM is dependent upon the presence of HIV-1 Tat, which activates glycogen synthase kinase (GSK)-3beta in neurons. Activation of GSK-3beta, in turn, results in modification of the NF-kappaB subunit RelA at serine 468, thereby regulating the physical interaction of RelA with histone deacetylase-3 corepressor molecules. Furthermore, neutralization of Tat or inhibition of GSK-3beta activity prevents neuronal apoptosis induced by HIV-MCM. We conclude that HIV-1 Tat may compromise neuronal function and fate by interfering with normal survival pathways subserved by NF-kappaB. These findings may have important therapeutic implications for the management of HIV-1-associated dementia.
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PMID:Human immunodeficiency virus-encoded Tat activates glycogen synthase kinase-3beta to antagonize nuclear factor-kappaB survival pathway in neurons. 1681 65

In some mammalian systems small interfering RNAs (siRNA) targeting homologous sequences in promoter regions of genes induce transcriptional gene silencing (TGS). We have previously reported the induction of TGS by an siRNA (prom-A siRNA) targeting the tandem NF-kappaB-binding motifs within the human immunodeficiency virus, type 1 (HIV-1), promoter region. Here we report that induction of TGS by prom-A siRNA is accompanied by immediate and sustained local recruitment of Argonaute-1 (Ago1), histone deacetylase-1 (HDAC1), and induction of dimethylation of histone 3 at lysine 9 (H3K9me2), processes known to be associated with transcriptional silencing. Elevated levels of H3K9me2 and HDAC1 spread upstream of the target sequence, and elevated H3K9me2 levels also spread downstream into the coding region. Moreover, this siRNA induces an immediate change in DNA accessibility to restriction enzyme digestion in the region of the transcription initiation site of the HIV-1. This change in accessibility is because of the relocation of a nucleosome known to be associated with this region of the integrated pro-virus. Although there is a theoretical possibility that the observed viral suppression could be mediated by the PTGS mechanism with this siRNA acting at the 3 (R)-long term repeat of the virus, we demonstrate that this siRNA, and three other U3 targeted siRNAs, are inefficient inducers of PTGS. These data strongly suggest that siRNA targeting the promoter region acts predominantly at a site within the 5 (R)-long term repeat of HIV to induce transcriptional silencing and alterations to chromatin structure of the HIV promoter region that extend well beyond the immediate siRNA target site. These induced changes are consistent with those described in latent HIV-1 infection.
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PMID:Closed chromatin architecture is induced by an RNA duplex targeting the HIV-1 promoter region. 1851 71

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