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)

Simian immunodeficiency virus from rhesus macaques (SIVmac), like human immunodeficiency virus type 1 (HIV-1), encodes a transactivator (tat) which stimulates long terminal repeat (LTR)-directed gene expression. We performed cotransfection assays of SIVmac and HIV-1 tat constructs with LTR-CAT reporter plasmids. The primary effect of transactivation for both SIVmac and HIV-1 is an increase in LTR-directed mRNA accumulation. The SIVmac tat gene product partially transactivates an HIV-1 LTR, whereas the HIV-1 tat gene product fully transactivates an SIVmac LTR. Significant transactivation is achieved by the product of coding exon 1 of the HIV-1 tat gene; however, inclusion of coding exon 2 results in a further increase in mRNA accumulation. In contrast, coding exon 2 of the SIVmac tat gene is required for significant transactivation. These results imply that the tat proteins of SIVmac and HIV-1 are functionally similar but not interchangeable. In addition, an in vitro-generated mutation in SIVmac tat disrupts splicing at the normal splice acceptor site at the beginning of coding exon 2 and activates a site approximately 15 nucleotides downstream. The product of this splice variant stimulates LTR-directed gene expression. This alternative splice acceptor site is also used by a biologically active provirus with an efficiency of approximately 5% compared with the upstream site. These data suggest that a novel tat protein is encoded during the course of viral infection.
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PMID:Functional comparison of transactivation by simian immunodeficiency virus from rhesus macaques and human immunodeficiency virus type 1. 284 68

The long terminal repeats (LTRs) of the human immunodeficiency virus type 2 (HIV-2) and a related simian immunodeficiency virus (SIVmac) contain cis-acting positive regulatory elements upstream and the major transactivator gene (tat) response element and a possible negative regulatory element downstream of the transcriptional initiation site. The tat response element of HIV-2 and of SIVmac was more complex than that of HIV-1. Two structurally similar subelements within the HIV-2 tat response element could be identified. Both of these subelements were required for optimal transactivation by the HIV-2 tat gene product. Either of these subelements, however, was sufficient for transactivation by the HIV-1 tat gene product. These observations provide an explanation for the poor transactivation of HIV-1 LTR-directed gene expression by the HIV-2 tat gene product since the HIV-1 LTR contains an analog of only one of the HIV-2 subelements. The HIV-2 tat gene product also affected the function of the upstream elements, including enhancer activity. The response of these cis elements of HIV-2 to transactivation by HIV-2/SIVmac and HIV-1 tat gene differed somewhat in virus-infected and tat gene transfected cells, probably related to the differences in the effective concentration of the tat gene products and/or other viral or cellular factors. The steady-state levels of HIV-2 LTR-linked gene transcripts were much higher in the presence of HIV-2, SIVmac, and HIV-1 tat genes than in their absence, suggesting transcriptional modulation as a mechanism for tat gene function.
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PMID:Human immunodeficiency virus type 2 long terminal repeat: analysis of regulatory elements. 284 15

We describe a construct, pHS/Cla, containing the Drosophila melanogaster hsp70 promoter which serves as an inducible expression vector in mammalian cells. The construct was made in the plasmid pAT153, a derivative of pBR322. In transient transfections of human H9 T-cells, the transactivator of transcription protein of the human AIDS virus HIV-1 was functionally expressed in response to heat shock. The promoter is very tightly regulated in that no expression can be detected at 37 degrees C. Expression is highly induced upon heat shock and lasts at least 4 h. The construct contains a unique ClaI site for cloning and expressing potentially any gene.
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PMID:A heat-shock-inducible eukaryotic expression vector. 285 Sep 76

For a few of retroviruses, the level of synthesis of viral proteins is greatly increased in the presence of a transactivator gene which is encoded by the virus. For instance, for HIV, TAT acts on target sequences present in the viral long terminal repeat (LTR). HIV-1 recombinant retrovirus (RRV), where the gag, pol and part of env genes have been exchanged for the reporter nlsLacZ gene, expresses the reporter gene only in presence of TAT. When the RRV is tat defective, this activity can be complemented by tat present on a second molecule. The expression of nlsLacZ can then be detected by a simple histochemical staining. If this complementation can also be provided by a wild type virus, then their detection and titration would be greatly simplified.
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PMID:[Toward an unpublished method of detecting human retroviruses: activation of HIV-1 LacZ recombinant provirus by the tat gene product]. 314 19

Human T-lymphotropic virus type III (HTLV-III/LAV or HIV) contains a gene designated art (anti-repressor transactivator). Here, we report the expression of the art gene product in bacteria and show that the 20-kilodalton (kDa) bacterially expressed art protein is recognized by serum of a patient. The bacterially synthesized art protein competed in an immunological reaction with a 20-kDa protein produced in HTLV-III/LAV-infected lymphocytes. Antiserum to a synthetic oligopeptide corresponding to a sequence in the second exon of the art gene also precipitated the 20-kDa protein in HTLV-III/LAV-infected cells. These results demonstrate that the 20-kDa art gene product is expressed in cell lines that produce HTLV-III/LAV virions.
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PMID:Expression of the art gene protein of human T-lymphotropic virus type III (HTLV-III/LAV) in bacteria. 354 1

Structural gene expression of human immunodeficiency virus type 1 (HIV-1) requires a viral regulatory protein, Rev transactivator. We investigated Rev-dependency of HIV-1 gene expression by various reporter systems. Expression of unspliced and single-spliced viral mRNAs was demonstrated to be differentially dependent on the Rev function. This difference of Rev-dependency was found not to be determined by cis-elements in gag, pol, and env coding sequences reported so far, and was lost when the reporter constructs containing minimum elements for Rev-responsiveness such as splice signals and rev responsive element were used for experiments. These findings indicated that the fundamental structure of HIV-1 mRNA was critical for the differential regulation of gene expression by Rev transactivator.
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PMID:Rev-dependency of expression of human immunodeficiency virus type 1 gag and env genes. 754 Jan 50

Tat strongly activates transcription of the HIV-1 provirus by stimulating both initiation and elongation. This transactivator binds to the TAR RNA element, but can also associate with cellular transcription factors, interacting with upstream promoter sequences. To achieve a better understanding of the role of Tat in the assembly of the transcriptional initiation complex in the living cell, we have examined how the activity of this protein is modified when the general transcription factor involved in the first step of this process, TBP, is overexpressed. The activity of Tat, either wild-type or fused to the DNA binding domain of GAL4 (GBTat), was tested using reporter constructs containing GAL4 binding sites upstream of a minimal promoter corresponding to the HIV-1 TATA box, with or without the TAR element. We found that overexpression of TBP led to a dramatic increase in the activity of the GBTat protein. In order to activate GBTat, TBP must be able to interact with the TATA box. Analysis of several Tat mutants indicated that both the cysteine-rich and the core domains of this transactivator are necessary and sufficient to activate transcription when TBP is overexpressed. In vitro experiments showed that Tat binds specifically to TBP. There was a correlation between the ability of different Tat mutants to bind TBP and their capacity to activate transcription in vivo. With the natural HIV-1 promoter, overexpression of TBP first stimulated and then suppressed the Tat-induced activity. This inhibition was abrogated by an increase in the intracellular levels of Tat. These experimental data indicate that Tat stimulates initiation of transcription by interacting with TBP in vivo.
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PMID:Evidence for functional interaction between the HIV-1 Tat transactivator and the TATA box binding protein in vivo. 760 68

We have used an in vitro approach to study the efficiency of antisense oligonucleotides in inhibiting LTR-(HIV-1)-directed CAT expression catalyzed by tat protein, the functional protein of the transactivator gene. We selected the target sequence localized near the 5' end of the tat mRNA. The following conclusions can be drawn from the data presented here: a) Antisense oligonucleotides modified by conjugation of cholesterol at the 3' end have a severalfold higher inhibitory response, b) inhibitory response is dependent on the mode of introducing oligonucleotides, and c) the inhibition by antisense oligonucleotides is sequence specific and directed towards the targeted region. This approach could be useful for targeting functional regions of regulatory gene products and designing gene-targeted inhibitors of virus replication.
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PMID:Gene-targeted inhibition of transactivation of human immunodeficiency virus type-1 (HIV-1)-LTR by antisense oligonucleotides. 773 57

Infection by human immunodeficiency virus type 1 (HIV-1) causes acquired immunodeficiency syndrome (AIDS) after a long clinical latency. This disease is associated with a spectrum of cancers. Here we report that wild-type p53 is a potent suppressor of Tat, a major transactivator of HIV-1. Reciprocally, Tat inhibits the transcription of p53. Downregulation of p53 by upregulated tat may be important for the establishment of productive viral infection in a cell and also may be involved in the development of AIDS-related malignancies.
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PMID:Reciprocal modulations between p53 and Tat of human immunodeficiency virus type 1. 777 31

Efficient replication of human immunodeficiency virus types 1 and 2 (HIV-1 and HIV-2) requires the virus transactivator proteins known as Tat. In order to understand the molecular mechanisms involved in Tat transactivation, it is essential to identify the cellular target(s) of the Tat activation domain. Using an in vitro kinase assay, we previously identified a cellular protein kinase activity, Tat-associated kinase (TAK), that specifically binds to the activation domains of Tat proteins. Here it is demonstrated that TAK fulfills the genetic criteria established for a Tat cofactor. TAK binds in vitro to the activation domains of the Tat proteins of HIV-1 and HIV-2 and the distantly related lentivirus equine infectious anemia virus but not to mutant Tat proteins that contain nonfunctional activation domains. In addition, it is shown that TAK is sensitive to dichloro-1-beta-D-ribofuranosylbenzimidazole, a nucleoside analog that inhibits a limited number of kinases and is known to inhibit Tat transactivation in vivo and in vitro. We have further identified an in vitro substrate of TAK, the carboxyl-terminal domain of the large subunit of RNA polymerase II. Phosphorylation of the carboxyl-terminal domain has been proposed to trigger the transition from initiation to active elongation and also to influence later stages during elongation. Taken together, these results imply that TAK is a very promising candidate for a cellular factor that mediates Tat transactivation.
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PMID:Lentivirus Tat proteins specifically associate with a cellular protein kinase, TAK, that hyperphosphorylates the carboxyl-terminal domain of the large subunit of RNA polymerase II: candidate for a Tat cofactor. 785 96

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