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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) type 1 LTR is regulated at the transcriptional level by both cellular and viral proteins. Using HeLa cell extracts, multiple regions of the HIV LTR were found to serve as binding sites for cellular proteins. An untranslated region binding protein
UBP
-1 has been purified and fractions containing this protein bind to both the TAR and TATA regions. To investigate the role of cellular proteins binding to both the TATA and TAR regions and their potential interaction with other HIV DNA binding proteins, oligonucleotide-directed mutagenesis of both these regions was performed followed by DNase I footprinting and transient expression assays. In the TATA region, two direct repeats TC/AAGC/AT/AGCTGC surround the TATA sequence. Mutagenesis of both of these direct repeats or of the TATA sequence interrupted binding over the TATA region on the coding strand, but only a mutation of the TATA sequence affected in vivo assays for tat-activation. In addition to TAR serving as the site of binding of cellular proteins, RNA transcribed from TAR is capable of forming a stable stem-loop structure. To determine the relative importance of DNA binding proteins as compared to secondary structure, oligonucleotide-directed mutations in the TAR region were studied. Local mutations that disrupted either the stem or loop structure were defective in gene expression. However, compensatory mutations which restored base pairing in the stem resulted in complete tat-activation. This indicated a significant role for the stem-loop structure in HIV gene expression. To determine the role of TAR binding proteins, mutations were constructed which extensively changed the primary structure of the TAR region, yet left stem base pairing, stem energy and the loop sequence intact. These mutations resulted in decreased protein binding to TAR DNA and defects in tat-activation, and revealed factor binding specifically to the loop DNA sequence. Further mutagenesis which inverted this stem and loop mutation relative to the HIV LTR mRNA start site resulted in even larger decreases in tat-activation. This suggests that multiple determinants, including protein binding, the loop sequence, and RNA or DNA secondary structure, are important in tat-activation and suggests that tat may interact with cellular proteins binding to DNA to increase HIV gene expression.
...
PMID:Human immunodeficiency virus type 1 LTR TATA and TAR region sequences required for transcriptional regulation. 272 1
Transcription of the human
immunodeficiency
virus type 1 (HIV-1) is regulated by viral proteins and cellular factors that bind to the viral long terminal repeat (LTR). At least five regions of the HIV LTR serve as binding sites for HeLa cellular proteins. One region containing two copies of the sequence GGGACTTTCC functions as an enhancer element for HIV transcriptional regulation. Another region between -17 and +44 known as the TAR region contains two copies of the sequence CTCTCTGG and is also important in tat-induced activation of the HIV LTR. HeLa cell extracts were used to purify cellular proteins binding to portions of the enhancer region (EBP-1) and the TAR region (
UBP
-1) by a combination of conventional and DNA affinity chromatography. Several species of proteins of between 55 and 60 kd were found to bind to specific sequences in the enhancer region and these proteins also bound to a portion of the NF-kappa B binding site in the immunoglobulin kappa enhancer. Two proteins of between 61 and 63 kd were the major species found to bind to specific sequences in the TAR region and fractions containing these proteins also bind to the TATA region. Both
UBP
-1 and EBP-1 exhibited specific binding as demonstrated by both UV cross-linking and DNase I footprinting. Mutations of either the enhancer or TAR regulatory regions prevented binding of these purified factors. These results demonstrate the binding of highly purified cellular proteins to important transcriptional regulatory regions in the HIV LTR.
...
PMID:Purification of the human immunodeficiency virus type 1 enhancer and TAR binding proteins EBP-1 and UBP-1. 313 13
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.
...
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
The human
immunodeficiency
virus type 1 (HIV-1) core promoter region, extending approximately from nucleotides -40 to +80 relative to the transcription start site, contains a complex array of putative regulatory elements, including a TATA box, an initiator element, an element between the TATA box and start site, binding sites for LBP/
UBP
, the TAR element, and others. However, because of this elaborate architecture, the precise boundaries and functional roles for the individual regulatory elements have not been defined. To facilitate a detailed analysis of the HIV-1 core promoter, we employed in vitro transcription assays to identify the simplest control elements that activate RNA synthesis in the context of a synthetic, heterologous promoter. Because mutations at the start site previously were shown to diminish transcription, we anticipated finding an initiator as a basic regulator. However, we have demonstrated that the HIV-1 core promoter lacks an initiator that is functionally analogous to those found in the terminal transferase and adenovirus major late promoters. In its place, we identified two elements between -6 and +30, both of which appear to be necessary for significant transcriptional activation. Unlike a strong initiator, the activity of these elements was dependent on the presence of a TATA box and on their position relative to TATA. We have called the region containing these two elements the HIV-1 SSR to distinguish it from the simple transcriptional initiator elements found in other genes.
...
PMID:HIV-1 core promoter lacks a simple initiator element but contains a bipartite activator at the transcription start site. 834 Apr 7
A subpopulation of stably infected CD4+ cells capable of producing virus upon stimulation has been identified in human
immunodeficiency
virus (HIV)-positive individuals (T.-W. Chun, D. Finzi, J. Margolick, K. Chadwick, D. Schwartz, and R. F. Siliciano, Nat. Med. 1:1284-1290, 1995). Few host factors that directly limit HIV-1 transcription and could support this state of nonproductive HIV-1 infection have been described. YY1, a widely distributed human transcription factor, is known to inhibit HIV-1 long terminal repeat (LTR) transcription and virus production. LSF (also known as LBP-1,
UBP
, and CP-2) has been shown to repress LTR transcription in vitro, but transient expression of LSF has no effect on LTR activity in vivo. We report that both YY1 and LSF participate in the formation of a complex that recognizes the initiation region of the HIV-1 LTR. Further, we have found that these factors cooperate in the repression of LTR expression and viral replication. This cooperative function may account for the divergent effects of LSF previously observed in vitro and in vivo. Thus, the cooperation of two general cellular transcription factors may allow for the selective downregulation of HIV transcription. Through this mechanism of gene regulation, YY1 and LSF could contribute to the establishment and maintenance of a population of cells stably but nonproductively infected with HIV-1.
...
PMID:Repression of human immunodeficiency virus type 1 through the novel cooperation of human factors YY1 and LSF. 937 97
Viral protein U (Vpu) is a protein encoded by human
immunodeficiency
virus type 1 (HIV-1) that promotes the degradation of the virus receptor, CD4, and enhances the release of virus particles from cells. We isolated a cDNA that encodes a novel cellular protein that interacts with Vpu in vitro, in vivo, and in yeast cells. This Vpu-binding protein (
UBP
) has a molecular mass of 41 kDa and is expressed ubiquitously in human tissues at the RNA level.
UBP
is a novel member of the tetratricopeptide repeat (TPR) protein family containing four copies of the 34-amino-acid TPR motif. Other proteins that contain TPR motifs include members of the immunophilin superfamily, organelle-targeting proteins, and a protein phosphatase.
UBP
also interacts directly with HIV-1 Gag protein, the principal structural component of the viral capsid. However, when Vpu and Gag are coexpressed, stable interaction between
UBP
and Gag is diminished. Furthermore, overexpression of
UBP
in virus-producing cells resulted in a significant reduction in HIV-1 virion release. Taken together, these data indicate that
UBP
plays a role in Vpu-mediated enhancement of particle release.
...
PMID:Functional interaction of human immunodeficiency virus type 1 Vpu and Gag with a novel member of the tetratricopeptide repeat protein family. 976 74
