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Query: UMLS:C0021051 (
immunodeficiency
)
71,517
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Transcriptional co-activator LEDGF/
p75
is the major cellular interactor of HIV-1 integrase (IN), critical to efficient viral replication. In this work, a series of INs from the Betaretrovirus, Gammaretrovirus, Deltaretrovirus, Spumavirus and Lentivirus retroviral genera were tested for interaction with the host factor. None of the non-lentiviral INs possessed detectable affinity for LEDGF in either pull-down or yeast two-hybrid assays. In contrast, all lentiviral INs examined, including those from bovine
immunodeficiency
virus (BIV), maedi-visna virus (MVV) and equine infectious anemia virus (EIAV) readily interacted with LEDGF. Mutation of Asp-366 to Asn in LEDGF ablated the interaction, suggesting a common mechanism of the host factor recognition by the INs. LEDGF potently stimulated strand transfer activity of divergent lentiviral INs in vitro. Unprecedentedly, in the presence of the host factor, EIAV IN almost exclusively catalyzed concerted integration, whereas HIV-1 IN promoted predominantly half-site integration, and BIV IN was equally active in both types of strand transfer. Concerted BIV and EIAV integration resulted in 5 bp duplications of the target DNA sequences. These results confirm that the interaction with LEDGF is conserved within and limited to Lentivirus and strongly argue that the host factor is intimately involved in the catalysis of lentiviral DNA integration.
...
PMID:LEDGF/p75 interacts with divergent lentiviral integrases and modulates their enzymatic activity in vitro. 1715 50
The transcriptional co-activator lens epithelium-derived growth factor (LEDGF) has been shown to protect cells against environmental stress. The protein has been implicated in auto-immunity and cancer, and is present in cells as the p52 or
p75
splice variant. Recently, LEDGF/
p75
, but not p52, was identified as the prominent interaction partner of human
immunodeficiency
virus type 1 (HIV-1) integrase. This interaction of HIV-1 integrase with the C-terminal integrase-binding domain of LEDGF/
p75
is crucial for HIV-1 replication. To gain insight into the cell biology of LEDGF/
p75
, we were interested in identifying cellular binding partners of its C-terminal domain. By yeast-two-hybrid screening with a CEMC7 cDNA-library, we were able to identify JPO2 as a binding partner of the C-terminal part of LEDGF/
p75
. The specific interaction between JPO2 and LEDGF/
p75
was verified by pull-down, AlphaScreen, and co-immunoprecipitation. Competition assays using recombinant proteins show a mutually exclusive binding of either JPO2 or HIV-1 integrase to LEDGF/
p75
. However, differing mechanisms of binding were suggested by continuing interaction of JPO2 with some LEDGF/
p75
mutants (I365A, D366A, F406A) that are totally defective for interaction with HIV-1 integrase. This finding is of significance for the development of specific inhibitors targeting only the interaction between LEDGF/
p75
and HIV-1 integrase, without disturbing interaction with other cellular factors. Over-expression of JPO2 resulted in a modest but reproducible inhibition of HIV-1 replication, consistent with competition between integrase and JPO2 for binding to LEDGF/
p75
. Furthermore, JPO2 over-expression activated transcription from the HIV-1 LTR.
...
PMID:Differential interaction of HIV-1 integrase and JPO2 with the C terminus of LEDGF/p75. 1766 26
Integration is an essential step in the retroviral lifecycle, and the lentiviral integrase binding protein lens epithelium-derived growth factor (LEDGF)/
p75
plays a crucial role during human
immunodeficiency
virus type 1 (HIV-1) cDNA integration. In vitro, LEDGF/
p75
stimulates HIV-1 integrase activity into naked target DNAs. Here, we demonstrate that this chromatin-associated protein also stimulates HIV-1 integration into reconstituted polynucleosome templates. Activation of integration depended on the LEDGF/
p75
-integrase interaction with either type of template. A differential requirement for the dominant DNA and chromatin-binding elements of LEDGF/
p75
was however observed when using naked DNA versus polynucleosomes. With naked DNA, the complete removal of these N-terminal elements was required to abate cofactor function. With polynucleosomes, activation mainly depended on the PWWP domain, and to a lesser extent on nearby AT-hook DNA-binding motifs. GST pull-down assays furthermore revealed a role for the PWWP domain in binding to nucleosomes. These results are completely consistent with recent ex vivo studies that characterized the PWWP and integrase-binding domains of LEDGF/
p75
as crucial for restoring HIV-1 infection to LEDGF-depleted cells. Our studies therefore establish novel in vitro conditions, highlighting chromatinized DNA as target acceptor templates, for physiologically relevant studies of LEDGF/
p75
in lentiviral cDNA integration.
...
PMID:Chromatinized templates reveal the requirement for the LEDGF/p75 PWWP domain during HIV-1 integration in vitro. 1817 27
Human cellular protein LEDGF/
p75
(lens epithelium-derived growth factor) is an important binding partner of human
immunodeficiency
virus type 1 (HIV-1) integrase (IN). Without LEDGF/
p75
, HIV-1 can not complete its life cycle. To study the detailed interactions between LEDGF/
p75
and HIV-1 IN, and then obtain the hotspots at the binding interface, 13 ns molecular dynamics simulations were carried out here. One-hundred snapshots extracted from the last 4 ns trajectories were used for calculation of binding free energy and decomposition of the energy by residue. First, the structural changes and their dynamic interactions were investigated focused on the production stage. And then, the free energy was discussed. On the basis of the above results, it could be suggested that residues Gln168, Glu170, and Thr174 in chain A of IN, Thr125, and Trp131 in chain B of IN as well as Ile365, Asp366, Phe406, and Val408 in LEDGF/
p75
were responsible for their binding. These results might be helpful for discovery and design of small molecules to interrupt the interaction between HIV-1 IN and LEDGF/
p75
.
...
PMID:Insights into the interactions between HIV-1 integrase and human LEDGF/p75 by molecular dynamics simulation and free energy calculation. 1824 52
A lens epithelium-derived growth factor (LEDGF)/
p75
peptide was evaluated for human
immunodeficiency
virus type 1 integrase (IN) inhibitory activity. The LEDGF/
p75
peptide modestly inhibited IN catalysis and was dependent on IN-DNA assembly. The peptide was also effective at disrupting LEDGF/
p75
-IN complex formation. We next investigated the activity of the LEDGF/
p75
peptide on IN mutant proteins that are unable to catalyze the DNA strand transfer reaction. The LEDGF/
p75
peptide displayed an increased potency on these IN proteins, from 5-fold to greater than 10-fold, indicating the IN multimeric state greatly influences the peptide inhibitory effects. These results shed light on IN-DNA multimeric formation, and how this process influences the LEDGF/
p75
-IN interaction.
...
PMID:Inhibitory profile of a LEDGF/p75 peptide against HIV-1 integrase: insight into integrase-DNA complex formation and catalysis. 1833 42
There are currently 25 drugs belonging to 6 different inhibitor classes approved for the treatment of human
immunodeficiency
virus (HIV) infection. However, new anti-HIV agents are still needed to confront the emergence of drug resistance and various adverse effects associated with long-term use of antiretroviral therapy. The 21st International Conference on Antiviral Research, held in April 2008 in Montreal, Canada, therefore featured a special session focused on novel targets for HIV therapy. The session included presentations by world-renowned experts in HIV virology and covered a diverse array of potential targets for the development of new classes of HIV therapies. This review contains concise summaries of discussed topics that included Vif-APOBEC3G, LEDGF/
p75
, TRIM 5alpha, virus assembly and maturation, and Vpu. The described viral and host factors represent some of the most noted examples of recent scientific breakthroughs that are opening unexplored avenues to novel anti-HIV target discovery and validation, and should feed the antiretroviral drug development pipeline in the near future.
...
PMID:Novel targets for HIV therapy. 1878 77
Lens epithelium-derived growth factor (LEDGF)/
p75
functions as a bimodal tether during lentiviral DNA integration: its C-terminal integrase-binding domain interacts with the viral preintegration complex, whereas the N-terminal PWWP domain can bind to cellular chromatin. The molecular basis for the integrase-LEDGF/
p75
interaction is understood, while the mechanism of chromatin binding is unknown. The PWWP domain is homologous to other protein interaction modules that together comprise the Tudor clan. Based on primary amino acid sequence and three-dimensional structural similarities, 24 residues of the LEDGF/
p75
PWWP domain were mutagenized to garner essential details of its function during human
immunodeficiency
virus type 1 (HIV-1) infection. Mutating either Trp-21 or Ala-51, which line the inner wall of a hydrophobic cavity that is common to Tudor clan members, disrupts chromatin binding and virus infectivity. Consistent with a role for chromatin-associated LEDGF/
p75
in stimulating integrase activity during infection, recombinant W21A protein is preferentially defective for enhancing integration into chromatinized target DNA in vitro. The A51P mutation corresponds to the S270P change in DNA methyltransferase 3B that causes human
immunodeficiency
, centromeric instability, and facial anomaly syndrome, revealing a critical role for this amino acid position in the chromatin binding functions of varied PWWP domains. Our results furthermore highlight the requirement for a conserved Glu in the hydrophobic core that mediates interactions between other Tudor clan members and their substrates. This initial systematic mutagenesis of a PWWP domain identifies amino acid residues critical for chromatin binding function and the consequences of their changes on HIV-1 integration and infection.
...
PMID:Identification and characterization of PWWP domain residues critical for LEDGF/p75 chromatin binding and human immunodeficiency virus type 1 infectivity. 1879 76
Abstract We evaluated the prognostic value of different mediators of inflammation: TNF-alpha and its soluble receptor
p75
, platelet-activating factor, and glutathione tripeptide in a case-control study nested within a cohort of 1281 patients infected by the human
immunodeficiency
virus (HIV) started on highly active antiretroviral treatment (HAART). During the first year of HAART, 16 cases experienced an AIDS-defining event and 6 experienced an evolution of T CD4(+) cell count <100/mm(3). Forty-four controls who did not progress during the same follow-up period were matched for age, baseline CD4(+), and HIV-RNA. In the control group, plasma levels of TNF-alpha and its soluble receptor
p75
decreased significantly from baseline to month 4: from 11.0 to 8.7 pg/ml (p < 0.001) and from 27.3 to 22.8 pg/ml (p < 0.003), respectively. Furthermore the decrease of TNF-alpha soluble receptor
p75
was larger in nonprogressors than in progressors (p = 0.003). Measurement of TNF-alpha soluble receptor
p75
may be of interest as an additional marker of early antiretroviral effect.
...
PMID:Early evolution of plasma soluble TNF-alpha p75 receptor as a marker of progression in treated HIV-infected patients. 1892 94
The 21st International Conference on Antiviral Research provided novel insights and approaches to drug discovery across a wide array of virologic fields. Topics ranged from the chemical synthesis of new compounds against the human
immunodeficiency
virus (HIV) to the long-term use of established drugs against influenza. A session on novel targets for HIV therapy focused on the importance of Apobec3G, LEDGF/
p75
and other cellular factors as innovative ways to control infection. New targets for hepatitis B and C viruses were surveyed. There were also discussions as to how the development of new antiviral compounds might lead to novel mechanisms of drug resistance by HIV, herpesviruses and hepatitis viruses. These covered such issues as transmission dynamics, viral fitness, the acquisition of differential resistance patterns depending on viral subtype, and clinical outcomes. Drug efficacy, toxicity, patient adherence, treatment interruption and the importance of generic drugs in resource-poor settings were also extensively discussed. These topics will all play a pivotal role in drug development and the management of viral infections in the years to come.
...
PMID:Perspectives on antiviral drug development. 1894 40
A tetramer model for human
immunodeficiency
virus type 1 (HIV-1) integrase (IN) with DNA representing long terminal repeat (LTR) termini was previously assembled to predict the IN residues that interact with the LTR termini; these predictions were experimentally verified for nine amino acid residues [Chen, A., Weber, I. T., Harrison, R. W. & Leis, J. (2006). Identification of amino acids in HIV-1 and avian sarcoma virus integrase subsites required for specific recognition of the long terminal repeat ends. J. Biol. Chem., 281, 4173-4182]. In a similar strategy, the unique amino acids found in avian sarcoma virus IN, rather than HIV-1 or Mason-Pfizer monkey virus IN, were substituted into the structurally related positions of HIV-1 IN. Substitutions of six additional residues (Q44, L68, E69, D229, S230, and D253) showed changes in the 3' processing specificity of the enzyme, verifying their predicted interaction with the LTR DNA. The newly identified residues extend interactions along a 16-bp length of the LTR termini and are consistent with known LTR DNA/HIV-1 IN cross-links. The tetramer model for HIV-1 IN with LTR termini was modified to include two IN binding domains for lens-epithelium-derived growth factor/
p75
. The target DNA was predicted to bind in a surface trench perpendicular to the plane of the LTR DNA binding sites of HIV-1 IN and extending alongside lens-epithelium-derived growth factor. This hypothesis is supported by the in vitro activity phenotype of HIV-1 IN mutant, with a K219S substitution showing loss in strand transfer activity while maintaining 3' processing on an HIV-1 substrate. Mutations at seven other residues reported in the literature have the same phenotype, and all eight residues align along the length of the putative target DNA binding trench.
...
PMID:Defining the DNA substrate binding sites on HIV-1 integrase. 1901 51
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