Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Herpes simplex virus type 1 (HSV-1) infection induces expression of the human immunodeficiency virus type 1 (HIV-1) provirus in the chronically infected T-cell line ACH-2. The HSV-1-mediated induction correlates with the appearance of two NF-kappa B-specific proteins of 55 and 85 kDa in the nucleus and with the binding of 50-kDa nuclear protein to the LBP-1 binding site of the untranslated leader sequence of the HIV-1 long terminal repeat. The HSV-1-induced LBP-1 binding protein, designated HLP-1, is present exclusively in HSV-1-infected, but not in phorbol-12-myristate-13-acetate- or tumor necrosis factor alpha-treated ACH-2 cells. Both the NF-kappa B and LBP-1 target sequences, when inserted either alone or together 5' of a heterologous minimal promoter (thymidine kinase), confer inducibility by HSV-1 infection in a transient transfection assay. Thus, it appears that the HSV-1-mediated activation of HIV-1 provirus is brought about by the binding of both NF-kappa B and HLP-1 specific proteins to two distinct regions of HIV-1 long terminal repeat.
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PMID:Herpes simplex virus type 1-mediated induction of human immunodeficiency virus type 1 provirus correlates with binding of nuclear proteins to the NF-kappa B enhancer and leader sequence. 131 71

Two molecular clones of feline immunodeficiency virus were compared. The first clone, 34TF10, was from a Petaluma, Calif., isolate; the second, PPR, was isolated from a cat in the San Diego, Calif., area. The cats from which the isolates were obtained suffered from chronic debilitating illnesses. The two molecular clones differed in their in vitro host cell range. The 34TF10 clone infected the Crandall feline kidney and G355-5 cell lines, but replicated less efficiently on feline peripheral blood leukocytes. In contrast, the PPR clone productively infected the primary feline peripheral blood leukocytes but not Crandall feline kidney or G355-5 cells. The 34TF10 and PPR clones had an overall sequence identity of 91%. The env gene was the least conserved (85% at the amino acid level). Additionally, the potential open reading frame for a Tat-like protein, ORF 2, contained a stop codon in the 34TF10 isolate which was not found in the PPR clone. This truncation did not prevent in vitro or in vivo replication of 34TF10. Two splice acceptor sites were identified in the 34TF10 clone. One was 5' to the beginning of the putative tat open reading frame, and the other was 5' to the putative vif product. Both of these acceptor sites were conserved in the PPR clone. The long terminal repeats of the viruses were 7% divergent between the two clones, with a lack of conservation in putative NF-kappa B, LBP-1, and CCAAT enhancer-promoter sites.
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PMID:Comparison of two host cell range variants of feline immunodeficiency virus. 169 7

A cellular DNA binding protein, LBP-1, sequentially interacts in a concentration-dependent manner with two sites that surround the transcriptional initiation site of the human immunodeficiency virus type 1 (HIV-1) promoter. Although sequences in the downstream site (site I) were found to enhance transcription, purified LBP-1 specifically repressed transcription in vitro by binding to the upstream site (site II), which overlaps the TATA element. The binding of human TATA binding factor (TFIID) to the promoter before LBP-1 blocked repression, suggesting that repression resulted from an inhibition of TFIID binding to the TATA element. Furthermore, mutations that eliminated binding to site II both prevented repression in vitro and increased HIV-1 transcription in stably transformed cells. These findings suggest that a cellular factor regulates HIV-1 transcription in a manner that is characteristic of bacterial repressors and that this factor could be important in HIV-1 latency.
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PMID:Repression of HIV-1 transcription by a cellular protein. 200 21

Promoter-specific transcription factors, whose function was once thought to be limited to initiation, are now known to have more diverse roles in RNA metabolism, including the cellular localization of transcripts and the integration of RNA initiation with attenuation and RNA 3' end formation. The human immunodeficiency viruses (HIV-1 and HIV-2) provide a useful system to study such proteins, since distinct DNA and RNA elements downstream of the site of transcription initiation act in conjunction with the promoter to regulate the induction and attenuation of RNA synthesis. Sequences corresponding to the 5' untranslated leader of HIV-1 and HIV-2 harbor at least three distinct elements: (i) a DNA domain that binds LBP-1, a cellular activator of initiation; (ii) a structured RNA element critical for the function of the HIV-1 trans-activating protein, Tat; and (iii) an RNA element required for the production of attenuated RNAs from the basal (uninduced) promoter. These attenuated leader RNAs seem to be created in vitro by stalled RNA polymerase II complexes that may be uniquely capable of rapidly processing RNA. Tat-mediated increases in steady-state levels of viral transcripts appear from nuclear run-on experiments to involve a control mechanism at both initiation and early post-initiation steps. Studies that implicate a role for Tat in post-transcriptional control suggest the existence of a mechanism for the coordination of eukaryotic transcription and translation, possibly through the assembly of nuclear regulatory factors at the 5' end of the RNA.
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PMID:HIV trans-activation and transcription control mechanisms. 256 18

Promoter-proximal downstream regions of the human immunodeficiency viruses (HIV-1 and HIV-2) mediate the action of the viral transcription activator protein, Tat. We demonstrate here that the downstream domain of each virus interacts with two RNA polymerase II transcription factors. One of these, CTF/NF I, is a multifunctional protein associated previously with activation of transcription and DNA replication. The other cellular protein, designated LBP-1 (leader-binding protein-1), recognizes repeated elements within an extended region of DNA corresponding to part of the 5'-untranslated leader. Analysis of clustered point mutants in the HIV-1 leader for DNA-binding and transcription activity in vitro and in vivo suggests a role for LBP-1 as part of the basal promoter. A complex overlapping arrangement is observed between sequences required for the interaction of LBP-1 and CTF/NF I proteins and those defined previously for regulation by the HIV-1 Tat protein.
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PMID:Structural arrangements of transcription control domains within the 5'-untranslated leader regions of the HIV-1 and HIV-2 promoters. 284 59

LBP-1 is a cellular protein which binds strongly to sequences around the human immunodeficiency virus type 1 (HIV-1) initiation site and weakly over the TATA box. We have previously shown that LBP-1 represses HIV-1 transcription by inhibiting the binding of TFIID to the TATA box. Four similar but distinct cDNAs encoding LBP-1 (LBP-1a, -b, -c, and -d) have been isolated. These are products of two related genes, and each gene encodes two alternatively spliced products. Comparison of the amino acid sequence of LBP-1 with entries in the available protein data bases revealed the identity of LBP-1c to alpha-CP2, an alpha-globin transcription factor. These proteins are also homologous to Drosophila melanogaster Elf-1/NTF-1, an essential transcriptional activator that functions during Drosophila embryogenesis. Three of the recombinant LBP-1 isoforms show DNA binding specificity identical to that of native LBP-1 and bind DNA as a multimer. In addition, antisera raised against recombinant LBP-1 recognize native LBP-1 from HeLa nuclear extract. Functional analyses in a cell-free transcription system demonstrate that recombinant LBP-1 specifically represses transcription from a wild-type HIV-1 template but not from an LBP-1 mutant template. Moreover, LBP-1 can function as an activator both in vivo and in vitro, depending on the promoter context. Interestingly, one isoform of LBP-1 which is missing the region of the Elf-1/NTF-1 homology is unable to bind DNA itself and, presumably through heteromer formation, inhibits binding of the other forms of LBP-1, suggesting that it may function as a dominant negative regulator.
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PMID:Characterization of a family of related cellular transcription factors which can modulate human immunodeficiency virus type 1 transcription in vitro. 811 10

Primary human macrophages induced to differentiate through contact with autologous activated nonadherent cells were used to investigate the transcriptional mechanisms involved in reactivation of human immunodeficiency virus (HIV) replication. Through transient transfection experiments with an HIV long terminal repeat (LTR)-chloramphenicol acetyltransferase reporter construct, we show that macrophage differentiation results in a 20-fold upregulation of basal LTR activity. To identify sequence elements responsive to the differentiation process, point mutations introduced into the LTR were tested in differentiated and undifferentiated macrophages. Several elements were identified as positive regulators of basal transcription. TATA, Sp1, and NF-kappa B binding sites were the most influential. The low-affinity site for LBP-1 (UBP-1) functioned as a negative regulator of LTR activity in undifferentiated macrophages, but this influence was lost upon differentiation. When tat was cotransfected into the expression system, the requirement for LTR elements identified as important for positive regulation of basal transcription remained in undifferentiated macrophages. Interestingly, however, the mutations in positive control elements which debilitated activity in undifferentiated macrophages had no effect on LTR activity in differentiated macrophages. Thus, it appears that while HIV-LTR activity is highly dependent on cellular transcription factors in undifferentiated cells, in differentiated macrophages the viral protein Tat confers pliability on the LTR and facilitates autonomy from absolute cellular control mechanisms. In vivo, release from either positive or negative regulation via cellular proteins may facilitate reactivation of HIV in macrophages.
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PMID:Differential role of long terminal repeat control elements for the regulation of basal and Tat-mediated transcription of the human immunodeficiency virus in stimulated and unstimulated primary human macrophages. 825 41

We have previously reported that infection with herpes simplex virus type 1 (HSV-1) activates expression of the human immunodeficiency virus type 1 (HIV-1) provirus in T cells. Activation of the HIV-1 provirus correlated with the activation of binding of 55- and 85-kDa proteins to the kappa B enhancer and binding of the 50-kDa HLP-1 protein to the LBP-1 sequences of the HIV-1 long terminal repeat. Further examination of this system has shown that the inhibition of HSV-1 replication by the antiviral drug acyclovir does not inhibit HSV-1-mediated induction of HIV-1 provirus. Surprisingly, the NF-kappa B and HLP-1 binding activities were substantially inhibited in acyclovir-treated cells. In the transient-transfection assay, ICP0, but not ICP4, activated the HIV-1 long terminal repeat promoter region and the effect of ICP0 was greatly enhanced in the presence of the NF-kappa B binding proteins, suggesting that induction of the HIV-1 provirus involves cooperation between the HSV-1-activated cellular factor, NF-kappa B, and the virus-encoded transactivator, ICP0.
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PMID:Differential contribution of herpes simplex virus type 1 gene products and cellular factors to the activation of human immunodeficiency virus type 1 provirus. 838 40

A cellular DNA binding protein, which we term Leader Binding Protein-2 (LBP-2), binds near the transcriptional initiation site of the human immunodeficiency virus type 1 (HIV-1) promoter. This protein recognizes a motif similar to that of LBP-1, a putative repressor of transcription (Kato, H., et al., Science, 251, 1476-1479, 1991). LBP-2 is associated with transcriptional activation of HIV-1 by herpes simplex virus type 1 (HSV-1). Electrophoretic mobility shift assays showed that nuclear levels of this protein increase markedly following HSV-1 infection. Mutations of the LBP binding motif eliminate LBP-2 binding and interfere with HIV-1 activation by HSV-1. When inserted into an unrelated promoter, this motif confers transcriptional responsiveness to HSV-1 infection. Proteins that bind near the initiator element may be important regulators of HIV-1 gene expression.
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PMID:HSV-1 activation of HIV-1 transcription is augmented by a cellular protein that binds near the initiator element. 839 Jul 64

Dexamethasone inhibited human immunodeficiency virus type 1 (HIV-1) long terminal repeat (LTR)-directed gene expression in cells of T and B lymphoblastoid lineages, but not in monocytic cells. Suppression required an intact glucocorticoid receptor (GR), as it was amplified by transfection of lymphocytes with a plasmid encoding the human GR and blocked by the receptor antagonist RU486. These results were in direct contrast to the effects of dexamethasone on a murine leukemia retrovirus promoter where, consistent with the findings of others, activation of gene expression was obtained. Potential regions of the HIV-1 LTR mediating these effects were sought, with sequence homologies predicting two new glucocorticoid response element half-sites, GRE-II (nucleotides -6 to -1) and GRE-III (+ 15 to + 20), downstream from a previously identified GR DNA binding domain, GRE-I (-264 to -259). Mutational analyses documented the loss of inhibitory activity attendant on changes in GRE-III and the independence of steroid-mediated effects from GRE-I and GRE-II. Consistent with these findings, electrophoretic mobility shift assays revealed a difference in binding of cellular factors to GRE-III in cells of T and B lymphocyte vs. monocytic lineages. Binding sites for the cellular transcription factor leader binding protein (LBP-1) were found to overlap with GRE-III, and LBP-1 interacted with this element in the HIV LTR only in T and B lymphocytic extracts. We hypothesize that GRE-III sequence-specific effects, including modulation of LBP-GR interactions, underlie the negative regulatory effect of glucocorticoids on HIV-1 gene expression, with some specificity for cell type.
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PMID:Role of glucocorticoid receptor binding sites in the human immunodeficiency virus type 1 long terminal repeat in steroid-mediated suppression of HIV gene expression. 855 53


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