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)

We have developed a vector (pSupexp), for high-level expression of genes, that is dependent on transactivation of the human immunodeficiency virus 1 (HIV-1) long terminal repeat (LTR) by the HIV-1 transactivator protein, Tat. The foreign gene, expressed under transcriptional control of the HIV-1 LTR, and the tat gene, expressed under transcriptional control of SV40 early promoter, are expressed from the same plasmid. The vector also has the neomycin resistance-encoding gene (neo), with G418 being used as a dominant selection marker for stable expression. We have cloned the bacterial cat gene into pSupexp and measured transient CAT production in human HeLa and A549 cells. Our results indicate that pSupexpCAT expresses about 25- to 68-fold higher levels of CAT activity as compared to other standard SV40- and Rous sarcoma virus-based vectors, and three- to fivefold more activity than the cytomegalovirus-based vector. Immunoprecipitation of the CAT protein also revealed a high level of production in human cells.
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PMID:A high-level expression vector for human cells. 139 42

NF-kappa B is a protein complex which functions in concert with the tat-I gene product to stimulate human immunodeficiency virus (HIV) transcription. To determine whether specific members of the NF-kappa B family contribute to this effect, we have examined the abilities of different NF-kappa B subunits to act with Tat-I to stimulate transcription of HIV in Jurkat T-leukemia cells. We have found that the p49(100) DNA binding subunit, together with p65, can act in concert with Tat-I to stimulate the expression of HIV-CAT plasmid. Little effect was observed with 50-kDa forms of p105 NF-kappa B or rel, in combination with p65 or full-length c-rel, which do not stimulate the HIV enhancer in these cells. These findings suggest that the combination of p49(100) and p65 NF-kappa B can act in concert with the tat-I gene product to stimulate the synthesis of HIV RNA.
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PMID:Specific NF-kappa B subunits act in concert with Tat to stimulate human immunodeficiency virus type 1 transcription. 158 34

cis-acting inhibitory region (IR) sequences were identified within the gag/pol gene of the human immunodeficiency virus type 1 (HIV-1) by using a novel feedback-stimulated, rev-independent tat reporter gene to screen HIV-1 sequences in transient expression assays. Two regions, a 1,295-nucleotide segment in the gag gene (IR-1) and a 1,932-nucleotide segment of the pol gene (IR-2), each inhibited reporter gene expression 10- to 20-fold. IR-1 and IR-2 both contained subsequences which inhibited reporter gene expression. Introduction of IR sequences into a heterologous reporter plasmid, pCMV-CAT, resulted in decreased chloramphenicol acetyltransferase expression, suggesting that the inhibitory effect was not restricted to a reporter gene under the control of the HIV-1 promoter. The presence of HIV IR sequences in cis did not alter relative levels of reporter gene RNA; however, fractionation studies revealed IR-containing RNA accumulated in the nucleus. These findings demonstrate that IR sequences within the gag/pol region affect gene expression by altering the cellular distribution of viral RNA.
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PMID:Identification of posttranscriptionally active inhibitory sequences in human immunodeficiency virus type 1 RNA: novel level of gene regulation. 165 66

We have been studying the role of human cytomegalovirus (HCMV) as a potential cofactor in human immunodeficiency virus (HIV)-related disease. The clinical relevance of HCMV is highlighted by the fact that it is a principal viral pathogen in patients with AIDS and is known to infect the same cells as HIV. In this study, we focused on the molecular interactions between HIV and HCMV in human fibroblasts and in the human glioblastoma/astrocytoma-derived cell line U373 MG, cells which can be productively infected by both viruses. Because these cells are CD4-, we used HIV pseudotyped with a murine amphotropic retrovirus as described previously (D. H. Spector, E. Wade, D. A. Wright, V. Koval, C. Clark, D. Jaquish, and S. A. Spector, J. Virol. 64:2298-2308, 1990). Initial studies showed that when cells were preinfected with HIV (Ampho-1B) for 5 days and then superinfected with HCMV, HIV antigen production dropped significantly in the coinfected cells but continued to rise in cells infected with HIV (Ampho-1B) alone. HCMV production, however, was unaffected by the presence of HIV. Further analysis showed that HIV steady-state RNA levels and gag and env protein production were also inhibited in the presence of HCMV. The transcriptional inhibition of HIV was particularly surprising in view of the previous results of several other laboratories as well as our own that HCMV infection stimulates HIV long terminal repeat-chloramphenicol acetyltransferase (LTR-CAT) expression in transient expression assays. To investigate this further, we transfected the HIV LTR-CAT construct into either uninfected cells or cells which had been preinfected with HIV. The cells were infected with HCMV 24 h posttransfection and assayed for CAT gene expression at 48 h after HCMV infection. Although there was some stimulation of the LTR-CAT in cells that were dually infected by HIV and HCMV, it was 16-fold less than that in the cells infected only with HCMV. This suggests that in the presence of the HIV infection, the stimulation of the HIV LTR-CAT gene by HCMV is significantly reduced. Experiments with UV-irradiated HCMV and the HCMV DNA polymerase inhibitor ganciclovir showed that HCMV transcription is necessary for the reduction in HIV production to occur; however, replication of the HCMV genome or any events which take place after DNA replication are not necessary. These results, coupled with the observation that inhibition is usually first seen between 8 and 24 h after HCMV infection, suggest that an HCMV early protein is involved in repression of HIV.
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PMID:Human cytomegalovirus inhibits human immunodeficiency virus replication in cells productively infected by both viruses. 165 86

The herpes simplex virus type 1 (HSV-1)-mediated transactivation of human immunodeficiency virus type 1 (HIV-1) provirus was studied in cell lines containing either integrated tat-defective HIV-1 provirus (HNHIVdt4 cells) or the tat-defective HIV-1 provirus, and a plasmid in which the expression of human alpha 2 interferon (HuIFN-alpha 2) was under the control of the HIV-1 long terminal repeat (LTR) (HNHIV alpha 1 cells). In both cell lines, transcription of the HIV-1 provirus was below the limits of detection, but it could be induced effectively by transfection with a HIV-1 tat-expression plasmid. In HNHIV alpha 1 cells, HuIFN-alpha 2 was induced concomitantly with HIV-1 provirus, although these cells synthesized only low levels of IFN constitutively. In contrast, infections with HSV-1 activated transcription of HIV-1 provirus only in HNHIVdt4 cells but not in HNHIV alpha 1 cells. Similarly in a transient expression assay, HSV-1 up-regulated expression of a HIV LTR-CAT (chloramphenicol acetyltransferase gene) plasmid in HNHIVdt4 but not in HNHIV alpha 1 cells. No major differences could be detected in the expression of HSV-1 immediate-early (IE) genes IE175 and IE110 (which are essential for the activation of HIV-1 LTR) in HNHIVdt4 and HNHIV alpha 1 cells to account for the inability of HSV-1 to induce HIV-1 in HNHIV alpha 1 cells. However, major differences were observed in the binding pattern of NF-kappa B-specific nuclear proteins to the enhancer region of the HIV-1 LTR: whereas binding of the 45-kDa NF-kappa B-specific nuclear protein was detected in nuclear extracts from HNHIVdt4 cells, no protein binding was seen in extracts from HNHIV alpha 1 cells. These results suggest an alternate mechanism by which IFN may alter the expression of cellular and viral genes.
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PMID:Inhibition by interferon of herpes simplex virus type 1-activated transcription of tat-defective provirus. 171 35

The adeno-associated virus (AAV) rep gene encodes four proteins (Rep78, Rep68, Rep52, and Rep40) required for AAV DNA replication and AAV gene regulation. In addition, the Rep proteins may have pleiotropic regulatory effects in heterologous systems, and in particular Rep78 may mediate a negative regulatory effect. We analyzed the effects of the AAV rep gene on human immunodeficiency virus type 1 (HIV-1) gene expression. The rep gene proteins of AAV type 2 (AAV2) inhibited the trans-activating ability of HIV-1. Constructs containing the AAV2 rep gene (pHIVrep) or a CAT gene (pBennCAT) expressed from the 5' HIV-1 long terminal repeat were inducible for Rep78 and Rep68 or CAT expression, respectively, when cotransfected with a plasmid containing the HIV-1 tat gene (pARtat). When equivalent amounts of pHIVrep and pBennCAT were cotransfected with increasing amounts of pARtat, expression of CAT activity was decreased. The pHIVrep construct was more inhibitory than plasmids expressing rep from the wild-type AAV2 p5 transcription promoter. rep expression from pHIVrep almost completely inhibited the replication of an HIV-1 proviral clone as measured by reverse transcriptase activity and p24 protein levels. Inhibition of HIV-1 production by Rep protein was also seen at the transcriptional level in that all HIV-1 transcripts were decreased when pHIVrep was present. The inhibitory effects of pHIVrep appear to be mediated primarily by Rep78 and perhaps Rep68. These results suggest that a trans-acting protein from a heterologous virus might be used to inhibit HIV-1 growth.
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PMID:Adeno-associated virus Rep protein inhibits human immunodeficiency virus type 1 production in human cells. 184 99

The expression of human immunodeficiency virus type 1 (HIV) is enhanced after T cell activation due to the interaction of cell-encoded nuclear factors with binding sites in the viral long terminal repeats (LTR). We studied the minimal signal transduction requirements for induction of HIV transcription during T cell activation. Monoclonal antibodies (mAb) against the T cell receptor/CD3 complex induced interleukin (IL) 2 production as well as HIV-LTR-directed gene expression in Jurkat T cells. Addition of cyclosporin A or buffering of intracellular Ca2+ changes did not abolish this LTR-directed gene expression but did block IL 2 production. In contrast, interference with protein kinase C (PKC) activation did inhibit both IL 2 production and LTR-driven gene expression. Under all conditions HIV-LTR-directed gene expression correlated with gene expression induced by the NF-kB binding enhancer, but not by the NF-AT or OCT-1 binding sites. In accordance with observations by Verweij, Geerts and Aarden on the CD28 co-stimulatory activation of IL2 transcription via an NF-kB-like activity, stimulation of the CD2, CD28 and CD44 accessory molecules was tested to mimick physiological activation signals independent of T cell receptor triggering. mAb directed against CD2 and CD44 only marginally induced the LTR. Next, non-mitogenic stimulation by mAb against CD28 clearly induced the HIV-LTR- and NF-kB- but not NF-AT- and OCT-1-driven chloramphenicol acetyltransferase CAT expression, showing a direct effect on gene expression via this receptor. Taken together, this report shows that non-mitogenic T cell activation signals are sufficient to induce HIV transcription. The finding that these signals may be delivered by receptors that are not dependent on antigen-specific activation may have important implications for our understanding of HIV pathogenesis.
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PMID:Non-mitogenic T cell activation signals are sufficient for induction of human immunodeficiency virus transcription. 184 14

Activation of T lymphocytes infected with the human immunodeficiency virus-1 (HIV-1) results in enhancement of viral replication mediated in part by activation of cellular NF kappa B capable of binding directly to sequences in the viral long terminal repeat, or LTR. Together with CD4+ T cells, macrophages constitute a major target for infection by HIV-1. Unlike lymphocytes, however, stimulation of mononuclear phagocytes is not associated with cell division and proliferation. Human monocyte-derived macrophages transfected with HIV-LTR-CAT constructs demonstrated down-regulation of CAT activity after stimulation with bacterial lipopolysaccharide (LPS) that mapped to a region distinct from NF kappa B binding sites. In contrast, fresh monocytes and the promonocytic U937 cell line both demonstrated up-regulation of HIV-LTR-CAT expression by LPS. Differentiation of U937 by PMA to establish a nondividing phenotype resulted in down-regulation of transfected HIV-LTR-CAT activity by LPS similar to that in mature macrophages. Human monocyte-derived macrophages infected with HIV-1 in vitro demonstrated a decrease in viral p24 release after incubation in LPS that was comparable to the negative regulation that occurred in the transient transfection assays. Factors controlling HIV replication may differ in dividing and nondividing hematopoietic cells and may contribute to restricted viral expression in nondividing cells.
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PMID:Activation of human monocyte--derived macrophages with lipopolysaccharide decreases human immunodeficiency virus replication in vitro at the level of gene expression. 190 15

We have isolated a rat cDNA, named FE65, hybridizing to an mRNA of about 2,300 nucleotides present in rat brain, undetectable in rat liver and very poorly represented in other tissues. An mRNA of the same size is present in human neuroblastoma cells and is absent from other human cell lines. The FE65 cDNA contains an open reading frame (ORF) coding for a polypeptide of 499 amino acids in which 143 residues can be aligned with the DNA binding domain of the integrases encoded by mammalian immunodeficiency viruses. The remaining part of the FE65 ORF is not homologous with the correspondent regions of the integrases; the first 206 residues of the FE65 ORF show numerous negative charges and a short sequence not dispensable for the function of the transactivating acidic domain of the jun family transcriptional factors. A plasmid which expresses FE65 amino acids 1-232 fused to the yeast GAL4 DNA binding domain was co-transfected with a plasmid containing five GAL4 binding sites upstream of a minimal Adenovirus promoter controlling the expression of the CAT gene. This experiment showed that the fused protein GAL4-FE65 is able to obtain a 30-40 fold increase of the CAT gene expression compared to the expression observed in the presence of the GAL4 DNA binding domain alone. Two types of FE65 mRNA are present in rat brain, differing only for six nucleotides. We demonstrate that this is the consequence of a neuron-specific alternative splicing of a six-nucleotide miniexon, which is also present in the human genome, in an intron/exon context very similar to that of the rat FE65 gene.
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PMID:A rat brain mRNA encoding a transcriptional activator homologous to the DNA binding domain of retroviral integrases. 192 10

Transcriptional activation of gene expression directed by the long terminal repeat (LTR) of the human immunodeficiency virus type 1 (HIV-1) requires both the Tat activation response element (TAR) and the Tat protein. Mutants lacking a functional tat gene are not able to replicate. An approach we have used to suppress HIV-1 gene expression is based on the controlled overexpression of multimerized TAR sequences, which results in the sequestration of one or more components of the Tat response. Since Tat has no known cellular analog, a modified HIV-1 LTR, which is highly induced by the presence of Tat, was used to promote the expression of the multimerized TAR (poly-TAR) specifically in the presence of Tat. Cotransfection of an HIV-1 LTR-controlled poly-TAR plasmid with LTR-Tat and LTR-CAT plasmids inhibited the level of the reporter gene activity (CAT) as much as 97%. The downregulation of HIV-1 gene expression observed was dependent on the quantity of transfected poly-TAR as well as the number of tandem TAR repeats expressed per unit transcript. Similar constructs lacking either LTR upstream sequences or the TAR sequence had no significant effect, suggesting that the competitive effect was mediated at the RNA level and that it was the nascent RNA, rather than DNA, that was recognized by the Tat protein. Tat-regulated production of the poly-TAR transcript provides a means for dissecting the mechanism of Tat-mediated trans-activation of the HIV-1 LTR. The ability to regulate a viral inhibitory gene so that it is expressed only when needed should prove useful in devising an antiviral strategy through gene therapy.
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PMID:Tat-regulated production of multimerized TAR RNA inhibits HIV-1 gene expression. 203 68

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