UMLS:C0019693 - FACTA Search

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Query: UMLS:C0019693 (HIV)
170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The HIV-1 trans-activator Tat increases the rate of transcription from the HIV-1 LTR promoter through the stem-loop-containing TAR RNA. To analyze the mechanisms of Tat action, a cell-free trans-activation system with no preincubation has been developed. Recombinant Tat specifically increased the level of a long runoff transcript but not a promoter-proximal transcript in a TAR-dependent fashion. These observations and the result of pulse-chase experiments support strongly the hypothesis that Tat enhances the ability of RNA polymerase to elongate over longer distances. Increased levels of the purified cellular factor TFIIF, essential for initiation and also implicated in elongation of transcription, obviated trans-activation by Tat by increasing the basal (Tat-independent) activity. However, another elongation factor, ATN/TFIIS, showed synergistic activation with Tat. An antiserum against a recombinant form of the large subunit of TFIIF (RAP 74) preferentially suppressed the activated level of transcription exerted by Tat. We propose the hypothesis that Tat acts as a processivity factor on RNA polymerase II in an analogous manner to TFIIF.
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PMID:HIV-1 Tat acts as a processivity factor in vitro in conjunction with cellular elongation factors. 155 13

We demonstrate that multiple SP1 protein:DNA binding sites confer enhancer-independent activation on the HIV-1 and globin gene promoters. This activation process can be achieved either by DNA replication of the promoter-containing plasmid or by high concentrations of input plasmid DNA used in the transfections. In the case of HIV-1, the three SP1 sites adjacent to the promoters TATA box are essential for this activation process. Furthermore, the human beta globin gene, which is normally dependent on a linked enhancer for transcriptional activity, can be made enhancer independent by insertion of SP1 binding sites adjacent to its TATA box. We speculate that (SP1)n-TATA type RNA polymerase II promoters may be generally permissive when present on actively replicating DNA templates and that this property of the HIV-1 promoter may be of importance to the activation of the DNA provirus in latently infected T cells.
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PMID:Multiple SP1 binding sites confer enhancer-independent, replication-activated transcription of HIV-1 and globin gene promoters. 162 32

It has previously been shown that the human immunodeficiency virus type 1 (HIV-1) trans-activation-responsive region (TAR) is contained in a stem-loop RNA structure. Moreover, the interaction of the RNA secondary structure with Tat, the trans-activator protein, seems to play a role in activation of transcription initiation and in preventing transcription attenuation. In this work, we have studied the ability of the HIV-1 TAR stem-loop to act as a specific attenuation signal for highly purified RNA polymerase II. We developed an in vitro system using dC-tailed DNA fragments of HIV-1 to study transcriptional control in the HIV-1 LTR. We have found that transcription in this system yields an attenuator RNA whose 3' end maps to the end of the TAR stem-loop, approximately 60 to 65 nucleotides downstream of the in vivo initiation site. Furthermore, transcription attenuation occurs only under conditions which cause displacement of the nascent transcript from the template DNA strand, thus allowing the RNA to fold into secondary structure. Evidence is provided that the purified polymerase II indeed recognizes stable RNA secondary structure as an intrinsic attenuation signal. The existence of this signal in the TAR stem-loop suggests that in vivo an antiattenuation factor, probably Tat, alone or in combination with other factors, acts to relieve the elongation block at the HIV-1 attenuation site.
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PMID:Transcriptional elongation by purified RNA polymerase II is blocked at the trans-activation-responsive region of human immunodeficiency virus type 1 in vitro. 187 Feb 6

Multiple binding of Tat and nuclear protein(s) to HIV-1 TAR RNA appears to be essential for the Tat-mediated trans-activation. As synthetic Tat-(1-47), which lacks the basic domain and does not bind TAR RNA in vitro, efficiently transactivated HIV-1 LTR in HeLa nuclear extracts, we hypothesized that Tat might trans-activate by interaction with TAR RNA via a host nuclear protein. The role of nuclear proteins in Tat-TAR interaction was examined through evaluation of several synthetic Tat peptides for ability to bind TAR RNA in vitro both in the presence and in the absence of HeLa nuclear proteins. Our data show that both Tat-(1-47) and Tat-(1-86) interact with TAR RNA-bound nuclear proteins, leading to dissociation of the nuclear protein-TAR RNA complexes; the N-terminal sequence of Tat appears to be involved in this interaction. Thus, after binding to TAR RNA, Tat can interact with a proximal TAR-bound nuclear protein and the resulting Tat-nuclear protein complex, now displaced from TAR, may initiate a facile and rapid assembly of the RNA polymerase II transcription complex. This study thus recognizes a novel interaction between Tat and a nuclear protein(s). Here we propose that the interaction of Tat with a nuclear protein(s) occurring on TAR RNA may be one of several steps in the mechanism of Tat-mediated trans-activation of the HIV-1 LTR.
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PMID:Synthetic HIV-1 Tat can dissociate HeLa nuclear protein-TAR RNA complexes in vitro: a novel Tat-nuclear protein interaction. 192 18

Regulation of eukaryotic genes is largely governed by multiple cis-acting DNA sequences recognized by specific transcription factors. The transcription factor NF-kappa B has been implicated as an important regulator of cellular and viral genes, including those of immunoglobulin kappa light chain, interleukin-2, beta-interferon, HIV-1 and cytomegalovirus. We have analyzed the effect of increasing the number of NF-kappa B sites, located directly upstream from the TATA box. Four copies of the sequence gave a more than 100-fold stimulation relative to a single copy, suggesting that NF-kappa B proteins act synergistically to bring about this dramatic increase in transcription. By DNase I footprinting we demonstrated factor binding to two adjacent NF-kappa B sites in vitro. However, we found no evidence for co-operative binding to these DNA sites. We propose that the high transcriptional activity results from another type of co-operation, based on multiple weak interactions of the NF-kappa B factors with another component of the transcription apparatus, perhaps RNA polymerase II itself.
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PMID:Synergistic activation of transcription by multiple binding sites for NF-kappa B even in absence of co-operative factor binding to DNA. 219 80

We have investigated the effects of HIV-1 infection on cellular gene expression in two different human CD4 positive lymphoid cell lines: CEM and C8166 cells. As a prerequisite for this study it was necessary to develop virus-cell culture systems in which greater than 90% of the cells could be near synchronously infected by HIV-1. Further, since HIV-1 is a cytopathic virus, it was essential that cellular gene expression be examined in virus-infected cells which remained viable. After meeting these requirements, we measured cellular RNA and protein levels in virus-infected lymphocytes. In the cell lines examined the levels of cellular protein synthesis markedly decreased at times when viral-specific protein synthesis was increasing. Both Northern and slot blot analysis revealed that the declines in host protein synthesis were due, at least in part, to declines in steady state levels of cellular mRNAs. Runoff assays with nuclei isolated from infected cells demonstrated that the decreases in cellular mRNA levels were not due to declines in cellular RNA polymerase II transcription rates. To determine if the decreases in cellular protein synthesis also might be due to specific translational controls exerted by HIV-1, we compared the polysome association of cellular RNAs in infected and uninfected C8166 cells. The polysome distribution of cellular mRNAs was virtually identical in mock- and HIV-1-infected cells although, as expected, the total amount of cellular mRNAs were significantly lower in virus-infected cells. Taken together, these results suggest that HIV-1 may encode mechanisms to inhibit cellular protein synthesis, likely as a result of cellular mRNA degradation, rather than specific blocks in cellular mRNA translation.
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PMID:Expression of cellular genes in CD4 positive lymphoid cells infected by the human immunodeficiency virus, HIV-1: evidence for a host protein synthesis shut-off induced by cellular mRNA degradation. 235 54

Trans-activation of HIV-1 transcription by the viral regulatory protein Tat has been proposed recently to overcome a block to RNA polymerase II elongation in vivo imposed by 5'-untranslated leader sequences. Interestingly, however, only full-length transcripts, rather than prematurely terminated HIV RNAs, are synthesized in most cell-free transcription extracts. Here, we describe an in vitro system in which induction of a highly efficient RNA polymerase II termination or cotranscriptional RNA processing event creates short HIV RNAs with 3' ends that map to a region immediately downstream of the HIV-1 or HIV-2 promoters. Termination in vitro is sequence dependent, generating short HIV-1 RNAs of 58-61 nucleotides that resemble in vivo transcripts observed in the absence of Tat, and a distinct, longer transcript of approximately 125-130 nucleotides from the HIV-2 promoter. Deletion of promoter-proximal HIV-2 downstream sequences results in the loss of a discrete RNA but also fails to restore wild-type transcription, indicating that termination actually is specified at the promoter and occurs at a site positioned by one or more elements located immediately upstream of the 3' end of the short RNAs. Experiments with recombinant HIV-2 promoters and nucleoside analogs indicate that this event involves a concerted interaction between the promoter and orientation-dependent leader sequences and that RNA secondary structure formation may also be required. These data provide direct evidence for abbreviated HIV transcripts and an in vitro approach to understanding the roles of cellular and viral regulatory proteins that mediate this process at the HIV promoters.
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PMID:In vitro formation of short RNA polymerase II transcripts that terminate within the HIV-1 and HIV-2 promoter-proximal downstream regions. 254 24

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

The long terminal repeat (LTR) of the AIDS virus (HIV) has been found to contain promoter sequences that are active in uninfected HeLa whole cell and nuclear extracts. Here we report that elements upstream of position -104 (start site +1) do not affect transcriptional activity in vitro whereas sequences between -104 and -57 are required for such activity. Using a reconstituted RNA polymerase II system, we demonstrate that a partially purified fraction containing Spl not only stimulates, as was previously reported, but is required for accurate initiation of transcription directed by the HIV LTR. In addition, based on a computerized analysis, we report the presence of a region in the HIV LTR (positions -151 to -80) that is similar to the 72 base pair enhancer element of SV40 and that includes a highly conserved segment also present in the cytomegalovirus enhancer. Moreover, the HIV and HTLV-I LTRs are shown to share a region of similarity that includes the 21 base pair motif found in the enhancers of the human and bovine T-lymphotropic viruses. The R region of the HIV LTR is found to have two extensive regions of dyad symmetry rather than one as was previously reported. The significance of these observations for HIV pathogenesis is discussed.
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PMID:Transcription directed by the HIV long terminal repeat in vitro. 304 54

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