UMLS:C0021051 - FACTA Search

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

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

The quantity and quality of human immunodeficiency virus type 1 (HIV-1) gene expression is controlled in large part by the action of two small nuclear viral regulatory proteins termed Tat and Rev. Tat is unique among transcriptional trans-activators in that it acts via a structured RNA target sequence, termed TAR, to induce high levels of transcription from the HIV-1 long terminal repeat promoter element. The activity of the viral Rev protein is also unprecedented in that this protein functions to induce the nuclear export of a specific class of viral RNA species that are otherwise sequestered in the nucleus by the action of cellular factors. Like Tat, Rev also interacts with a highly specific cis-acting target sequence termed, in this case, the Rev Response Element. In this review, I provide an outline of our current understanding of the roles and mechanisms of action of these two novel RNA-sequence-dependent regulatory proteins.
...
PMID:RNA-sequence-mediated gene regulation in HIV-1. 781 57

Tat regulation of human immunodeficiency virus (HIV) transcription is unique because of its specificity for an RNA target, TAR, and its ability to increase the efficiency of elongation by polymerase. A reconstituted reaction that is Tat-specific and TAR-dependent for activation of HIV transcription has been used to identify and partially purify a cellular activity that is required for trans-activation by Tat, but not by other activators. In the reaction, Tat stimulates the efficiency of elongation by polymerase, whereas Sp1 and other DNA sequence-specific transcription factors activate the rate of initiation. Furthermore, while TATA binding protein (TBP)-associated factors (TAFs) in the TFIID complex are required for activation by transcription factors, they are dispensable for Tat function. Thus, Tat acts through a novel mechanism, which is mediated by a specific host cellular factor, to stimulate HIV-1 gene expression.
...
PMID:Novel mechanism and factor for regulation by HIV-1 Tat. 783 43

The primary body of information on the structure of human immunodeficiency virus type 1 (HIV-1) long terminal repeat (LTR)/gag leader genotypes has been determined from the analysis of cocultivated isolates. Functional studies of this regulatory portion of the provirus have been derived from the study of in vitro-generated mutations of laboratory-adapted molecular clones of HIV-1. We have performed a longitudinal analysis of molecular clones from the LTR/gag leader region amplified directly from the peripheral blood of four patients over three years. We have found a remarkable number of point mutations and length polymorphisms in cis- and trans-acting regulatory elements within this cohort. Most of the length polymorphisms were associated with duplications of Sp1 and TCF-1 alpha sequences. These mutations were associated with a wide range of transcriptional activities for these genotypes in a reporter gene assay. Mutations in conserved Sp1 sequences correlated with a diminished capacity of such genotypes to bind purified Sp1 protein. Although no generalized trend in transcriptional activity was seen, a single patient accumulated mutations in NF-kappa B, Sp1, and TAR elements over this period. The analysis of naturally occurring mutations of LTR genotypes provides a means to study the molecular genetic consequences of virus-host interactions and to assess the functional impact of HIV therapeutics.
...
PMID:Naturally occurring genotypes of the human immunodeficiency virus type 1 long terminal repeat display a wide range of basal and Tat-induced transcriptional activities. 790 1

Tat activates human immunodeficiency type 1 gene expression by binding to TAR RNA. TAR comprises a partially base paired stem and hexanucleotide loop with a tripyrimidine bulge in the upper stem. In vitro, Tat binds to the bulge and upper stem, with no requirement for the loop. However, in vivo, loop sequences are critical for activation, implying that a loop binding cellular factor may be involved in the activation pathway. Given that activation appears to be a two-component system comprising a Tat-bulge interaction and a cellular factor-loop interaction, we considered that it might be possible to spatially separate the two components and retain activation. We have constructed a series of double TAR elements comprising various combinations of mutated TAR structures. Defective TARs with nucleotide substitutions in either the bulge or the loop complemented each other to give wild-type activation. However, the complementation was orientation specific, requiring the intact Tat binding site to reside on the 5'-proximal TAR. These data suggest that provided the wild-type orientation of the bulge and loop elements is retained, there is no requirement for them to coexist on the same TAR structure.
...
PMID:Orientation-specific cis complementation by bulge- and loop-mutated human immunodeficiency virus type 1 TAR RNAs. 796 33

Human immunodeficiency virus types 1 and 2 (HIV-1 and HIV-2) express related Tat proteins that are encoded in two exons. Tat proteins bind directly to the TAR RNA element contained in the 5' ends of viral transcripts and thereby stimulate transcription through an as yet unidentified mechanism. We have investigated the functional significance of exon2 of the HIV-2 Tat protein by examining properties of proteins consisting of exon1 alone or exon1 + 2. In transactivation assays in vivo, exon2 modestly increased HIV-2 Tat stimulation of transcription from the HIV-2 long terminal repeat (LTR) but had no effect on transcription from the HIV-1 LTR. In HeLa cells, exon2 increased transactivation of the HIV-2 LTR by approximately three-fold, while in COS and Jurkat cells this value was less than two-fold. In binding assays in vitro, exon2 increased the binding affinity of the HIV-2 Tat protein to HIV-2 TAR RNA. Results with GAL4 fusion proteins and a synthetic promoter containing GAL4 DNA binding sites indicated that exon2 does not contribute to the HIV-2 Tat activation domain. These observations suggest that exon2 of HIV-2 Tat contributes to transactivation of the HIV-2 LTR by increasing the binding affinity to HIV-2 TAR RNA.
...
PMID:Exon2 of HIV-2 Tat contributes to transactivation of the HIV-2 LTR by increasing binding affinity to HIV-2 TAR RNA. 797 Dec 71

One approach to gene therapy for AIDS is to block the replication of human immunodeficiency virus type 1 (HIV-1) by inhibiting that tat gene, whose product activates the expression of all HIV-1 genes. To accomplish this, we constructed an antitat gene expressing an RNA with dual (polymeric TAR and antisense-tat) function in an attempt to both sequester Tat protein and block its translation from mRNA. A minigene consisting of the antitat gene driven by the HIV-1 long terminal repeat was inserted into a double-copy retrovirus vector, such that antitat expression would be upregulated only in HIV-1-infected cells. After transduction of a T-lymphocytic cell line (Molt-3) the antitat gene inhibited HIV-1 replication. This inhibition was inversely correlated with the virus infections dose. Virus replication was also inhibited for 5 months in two different T-cell lines after they had been infected at a high multiplicity of infection, suggesting that the antitat gene may be effective over long periods. Importantly, antitat blocked the replication and the cytopathic effect of HIV-1 in human peripheral blood mononuclear cells and led to as much as 4,000-fold inhibition of the replication of an HIV-1 field isolate as well as HIV-1 prototypes maintained in culture. These results suggest that antitat gene therapy has potential use for blocking HIV-1 replication in infected individuals.
...
PMID:An autoregulated dual-function antitat gene for human immunodeficiency virus type 1 gene therapy. 798 11

During the initial stages of human immunodeficiency virus (HIV) replication, 5'-terminally redundant (R') DNA, the minus strand synthesized as the complement of the 5'-long terminal repeat (LTR) terminal redundancy, must anneal to the 3'-LTR RNA to enable template transfer. The (R')DNA sequences contain the site involved in the tat-TAR interaction and extensive secondary structures that strongly interfere with annealing. The novel annealing reaction between (R')DNA and 3'-LTR RNA follows first-order kinetics, consistent with an unusually slow unfolding of the secondary structure as the rate-limiting step followed by a more rapid nucleation step. The HIV nucleocapsid protein accelerates the annealing reaction 3000-fold under optimal conditions. This acceleration may be necessary for strand transfer to efficiently occur in vivo and may provide a target for anti-HIV chemotherapeutic agents.
...
PMID:Human immunodeficiency virus nucleocapsid protein accelerates strand transfer of the terminally redundant sequences involved in reverse transcription. 798 15

Human immunodeficiency virus types 1 and 2 (HIV-1 and HIV-2) encode related proteins called Tat-1 and Tat-2, respectively, that bind directly to the TAR RNA element contained at the 5' ends of viral transcripts and thereby stimulate transcription through an as yet unidentified mechanism. The determinants in the HIV-1 TAR element (TAR-1) that specify binding by the Tat-1 protein have been extensively characterized, while little is known about determinants in the HIV-2 TAR element (TAR-2) that specify binding by the Tat-2 protein. The HIV-2 TAR RNA element (TAR-2) is known to be composed of two stem-loop structures. A dinucleotide bulge is found in each stem of TAR-2 RNA, analogous to the crucial trinucleotide bulge in the single stem-loop of HIV-1 TAR RNA that is the primary binding determinant for binding by the HIV-1 Tat protein. Our results of a nuclease digestion analysis demonstrated that the 5' proximal bulge in TAR-2 is significantly less sensitive to digestion by single-strand specific nucleases than the 3' distal bulge, suggesting that the 5' bulge may be involved in tertiary interaction with other regions of TAR RNA. Deletion of both bulges reduced binding in vitro by the Tat-2 protein and largely abolished transactivation in vivo by Tat-2. Deletion of either bulge alone simplified the pattern of protein/RNA complexes in a gel shift assay, but did not reduce the overall binding affinity of Tat-2. Deletion of the 5' bulge reduced Tat-2 transactivation in vivo to a level approximately 30% that of wild-type TAR-2, while deletion of the 3' bulge had no measurable effect in vivo. Our results suggest that each dinucleotide bulge specifies a Tat-2 binding site, but in the wild-type TAR-2 element the 3' bulge binding site does not appear to be utilized in vivo.
...
PMID:Functional significance of the dinucleotide bulge in stem-loop1 and stem-loop2 of HIV-2 TAR RNA. 800 32

The human immunodeficiency virus type 1 (HIV-1) TAR element is critical for the activation of gene expression by the transactivator protein, Tat. Mutagenesis has demonstrated that a stable stem-loop RNA structure containing both loop and bulge structures transcribed from TAR is the major target for tat activation. Though transient assays have defined elements critical for TAR function, no studies have yet determined the role of TAR in viral replication because of the inability to generate viral stocks containing mutations in TAR. In the current study, we developed a strategy which enabled us to generate stable 293 cell lines which were capable of producing high titers of different viruses containing TAR mutations. Viruses generated from these cell lines were used to infect both T-lymphocyte cell lines and peripheral blood mononuclear cells. Viruses containing TAR mutations in either the upper stem, the bulge, or the loop exhibited dramatically decreased HIV-1 gene expression and replication in all cell lines tested. However, we were able to isolate lymphoid cell lines which stably expressed gene products from each of these TAR mutant viruses. Though the amounts of virus in these cell lines were roughly equivalent, cells containing TAR mutant viruses were extremely defective for gene expression compared with cell lines containing wild-type virus. The magnitude of this decrease in viral gene expression was much greater than previously seen in transient expression assays using HIV-1 long terminal repeat chloramphenicol acetyltransferase gene constructs. In contrast to the defects in viral growth found in T-lymphocyte cell lines, several of the viruses containing TAR mutations were much less defective for gene expression and replication in activated peripheral blood mononuclear cells. These results indicate that maintenance of the TAR element is critical for viral gene expression and replication in all cell lines tested, though the cell type which is infected is also a major determinant of the replication properties of TAR mutant viruses.
...
PMID:Differential growth kinetics are exhibited by human immunodeficiency virus type 1 TAR mutants. 805 69

The Tat protein binds to TAR RNA to stimulate the expression of the human immunodeficiency virus type 1 (HIV-1) genome. Tat is an 86 amino acid protein that contains a short region of basic residues (aa49-aa57) that are required for RNA binding and TAR is a 59 nucleotide stem-loop with a tripyrimidine bulge in the upper stem. TAR is located at the 5' end of all viral RNAs. In vitro, Tat specifically interacts with TAR by recognising the sequence of the bulge and upper stem, with no requirement for the loop. However, in vivo the loop sequence is critical for activation, implying a requirement for accessory cellular TAR RNA binding factors. A number of TAR binding cellular factors have been identified in cell extracts and various models for the function of these factors have been suggested, including roles as coactivators and inhibitors. We have now identified a novel 38 kD cellular factor that has little general, single-stranded or double-stranded RNA binding activity, but that specifically recognises the bulge and upper stem region of TAR. The protein, referred to as BBP (bulge binding protein), is conserved in mammalian and amphibian cells and in Schizosaccharomyces pombe but is not found in Saccharomyces cerevisiae. BBP is an effective competitive inhibitor of Tat binding to TAR in vitro. Our data suggest that the bulge-stem recognition motif in TAR is used to mediate cellular factor/RNA interactions and indicates that Tat action might be inhibited by such competing reactions in vivo.
...
PMID:Identification of a novel HIV-1 TAR RNA bulge binding protein. 807 72

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>