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Query: UMLS:C0019693 (HIV)
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Here we describe methods developed based on systematic yeast two-hybrid screenings that allowed us to identify several binding partners of HIV-1 integrase. We have developed an efficient strategy to perform large comprehensive screenings with different highly complex cDNA libraries derived both random- and oligo-dT primed reactions. A very efficient mating procedure was used for screening in yeast, allowing genetic saturation of positive clones. This importantly leads with confidence to the determination of the regions within the participating proteins responsible for the interactions. Several additional tools were used that allowed us to assess the specificity of the interactions detected, including rebound screens with cellular co-factors as baits performed against a library of random fragments of HIV-1 proviral DNA. For some of the identified cell factors, we have generated and characterized loss of affinity mutants of integrase, which, when combined with viral functional assays, validated the involvement of human lens epithelium-derived growth factor (LEDGF/p75) in the integration step of the HIV-1 replication cycle. All tolled, our studies identified LEDGF/p75, Transportin-SR2 (TNPO3), von Hippel-Lindau binding protein 1 (VBP1), and sucrose non-fermenting 5 (SNF5) as cellular binding partners of HIV-1 integrase.
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PMID:Yeast two-hybrid detection of integrase-host factor interactions. 1923 40

Lens epithelium-derived growth factor/p75 (LEDGF/p75) is a prominent cellular interaction partner of human immunodeficiency virus-1 (HIV-1) integrase, tethering the preintegration complex to the host chromosome. In light of the development of LEDGF/p75-integrase interaction inhibitors, it is essential to understand the cell biology of LEDGF/p75. We identified pogZ as new cellular interaction partner of LEDGF/p75. Analogous to lentiviral integrase, pogZ, a domesticated transposase, carries a DDE domain, the major determinant for LEDGF/p75 interaction. Using different in vitro and in vivo approaches, we corroborated the interaction between the C terminus of LEDGF/p75 and the DDE domain of pogZ, revealing an overlap in the binding of pogZ and HIV-1 integrase. Competition experiments showed that integrase is efficient in displacing pogZ from LEDGF/p75. Moreover, pogZ does not seem to play a role as a restriction factor of HIV. The finding that LEDGF/p75 is capable of interacting with a DDE domain protein that is not a lentiviral integrase points to a profound role of LEDGF/p75 in DDE domain protein function.
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PMID:Lens epithelium-derived growth factor/p75 interacts with the transposase-derived DDE domain of PogZ. 1924 40

The HIV-1 integrase, responsible for the chromosomal integration of the newly synthesized double-stranded viral DNA into the host genomic DNA, represents a new and important target of potential clinical relevance. For instance, two integrase inhibitors, raltegravir and elvitegravir, have been shown to be promising in clinical trials, and the first has been recently made available for clinical practice. As is the case for other antiviral drugs, drug resistance to integrase inhibitors occurs both in vitro and/or in vivo through the selection of mutations within the HIV genome. Indeed, many integrase mutations have already been associated with resistance to all the different integrase inhibitors tested in in vitro and/or in vivo studies. Among them, about 40 substitutions have been specifically associated with the development of resistance to raltegravir and/or elvitegravir; some of them were also found in vivo in patients failing such integrase inhibitors. The relevance of integrase mutations in clinical practice has yet to be defined, in light of the lack of long-term follow-up of treated patients and the limited data about the prevalence of integrase inhibitor-associated mutations in integrase inhibitor-naive patients (either untreated, or treated with antiretrovirals not containing integrase inhibitors). Therefore, by structural analysis elaboration and literature discussion, the aim of this review is to characterize the conserved residues and regions of HIV-1 integrase and the prevalence of mutations associated with integrase inhibitor resistance, by matching data originated from a well-defined cohort of HIV-1 B subtype-infected individuals (untreated and antiretroviral-treated) and data originated from the public Los Alamos Database available in the literature (all patients integrase inhibitor-naive by definition). In integrase inhibitor-naive patients, 180 out of 288 HIV-1 integrase residues (62.5%) are conserved (< 1% variability). Residues involved in protein stability, multimerization, DNA binding, catalytic activity, and in the binding with the human cellular cofactor LEDGF/p75 are fully conserved. Some of these residues clustered into large defined regions of consecutive invariant amino acids, suggesting that consecutive residues in specific structural domains are required for the correct performance of HIV-1 integrase functions. All primary signature mutations emerging in patients failing raltegravir (Y143R, Q148H/K/R, N155H) or elvitegravir (T66I, E92Q, S147G, Q148H/K/R, N155H), as well as secondary mutations (H51Y, T66A/K, E138K, G140S/A/C, Y143C/H, K160N, R166S, E170A, S230R, D232N, R263K) were completely absent or highly infrequent (< 0.5%) in integrase inhibitor-naive patients, either infected with HIV-1 B subtype (drug-naive or antiretroviral-treated), or non-B subtypes/group N and O. Differently, other mutations (L74M, T97A, S119G/R, V151I, K156N, E157Q, G163K/R, V165I, I203M, T206S, S230N) occurred as natural polymorphisms with a different prevalence according to different HIV-1 subtype/circulating recombinant form/group. In conclusion, the HIV-1 integrase in vivo is an enzyme requiring the full preservation of almost two-thirds of its amino acids in the absence of specific integrase inhibitor pressure. Primary mutations associated with resistance to integrase inhibitors clinically relevant today are absent or highly infrequent in integrase inhibitor-naive patients. The characterization of the highly conserved residues (involved in protein stability, multimerization, DNA binding, catalytic activity, LEDGF binding, and some with still poorly understood function) could help in the rational design of new HIV-1 inhibitors with alternative mechanisms of action and more favorable resistance profiles.
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PMID:Characterization and structural analysis of HIV-1 integrase conservation. 1929 31

To characterize the regenerative pattern of cutaneous nerves in simian immunodeficiency virus (SIV)-infected and uninfected macaques, excisional axotomies were performed in nonglabrous skin at 14-day intervals. Samples were examined after immunostaining for the pan-axonal marker PGP 9.5 and the Schwann cell marker p75 nerve growth factor receptor. Collateral sprouting of axons from adjacent uninjured superficial dermal nerve bundles was the initial response to axotomy. Both horizontal collateral sprouts and dense vertical regeneration of axons from the deeper dermis led to complete, rapid reinnervation of the epidermis at the axotomy site. In contrast to the slower, incomplete reinnervation previously noted in humans after this technique, in both SIV-infected and uninfected macaques epidermal reinnervation was rapid and completed by 56 days postaxotomy. p75 was densely expressed on the Schwann cells of uninjured nerve bundles along the excision line and on epidermal Schwann cell processes. In both SIV-infected and uninfected macaques, Schwann cell process density was highest at the earliest timepoints postaxotomy and then declined at a similar rate. However, SIV-infection delayed epidermal nerve fiber regeneration and remodeling of new sprouts at every timepoint postaxotomy, and SIV-infected animals consistently had lower mean epidermal Schwann cell densities, suggesting that Schwann cell guidance and support of epidermal nerve fiber regeneration may account for altered nerve regeneration. The relatively rapid regeneration time and the completeness of epidermal reinnervation in this macaque model provides a useful platform for assessing the efficacy of neurotrophic or regenerative drugs for sensory neuropathies including those caused by HIV, diabetes mellitus, medications, and toxins.
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PMID:Altered cutaneous nerve regeneration in a simian immunodeficiency virus / macaque intracutaneous axotomy model. 1929 76

Significant advances have transpired in the human immunodeficiency virus type 1 (HIV-1) integration field in recent years. Considering its essential nature, integrase has long been a target of interest for antiviral drug development. The most significant advance was the approval of the Merck compound raltegravir, the first licensed integrase inhibitor, in October 2007. Another milestone was the identification and characterization of specific nucleoprotein complexes that mediate integrase 3' processing and DNA strand transfer activities in vitro. Genome-wide distribution analyses have furthermore revealed that different retroviruses differentially target distinctive regions of chromatin during integration. For examples, lentiviruses favor actively transcribed genes whereas gammaretroviruses such as Moloney murine leukemia virus prefer transcriptional start sites. Though the underlying mechanisms are unknown for most retroviruses, the lentiviral preference is in large part guided through the interaction with the integrase binding protein lens epithelium-derived growth factor (LEDGF)/p75. Experimental methods that formed the foundations for each of these advances, as well as other techniques topical to the study of HIV-1 integration, are described in this issue of Methods.
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PMID:Mechanistic and pharmacological analyses of HIV-1 integration. 1938 10

The cellular protein lens epithelium-derived growth factor, or transcriptional coactivator p75 (LEDGF/p75), plays a crucial role in HIV integration. The protein-protein interactions (PPIs) between HIV-1 integrase (IN) and its cellular cofactor LEDGF/p75 may therefore serve as targets for the development of new anti-HIV drugs. In this work, a structure-based pharmacophore model for potential small-molecule inhibitors of HIV-1 IN-LEDGF/p75 interaction was developed using the LigandScout software. The 3D model obtained was used for virtual screening of our in-house chemical database, CHIME, leading to the identification of compound CHIBA-3002 as an interesting hit for further optimization. The rational design, synthesis and biological evaluation of four derivatives were then carried out. Our studies resulted in the discovery of a new and more potent small molecule (7, CHIBA-3003) that is able to interfere with the HIV-1 IN-LEDGF/p75 interaction at micromolar concentration, representing one of the first compounds to show activity against these specific PPIs. Docking simulations were subsequently performed in order to investigate the possible binding mode of our new lead compound to HIV-1 IN. This study is a valid starting point for the identification of anti-HIV agents with a different mechanism of action from currently available antiviral drugs.
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PMID:Pharmacophore-based discovery of small-molecule inhibitors of protein-protein interactions between HIV-1 integrase and cellular cofactor LEDGF/p75. 1956 98

LEDGF/p75 can tether over-expressed lentiviral integrase proteins to chromatin but how this underlies its integration cofactor role for these retroviruses is unclear. While a single integrase binding domain (IBD) binds integrase, a complex N-terminal domain ensemble (NDE) interacts with unknown chromatin ligands. Whether integration requires chromatin tethering per se, specific NDE-chromatin ligand interactions or other emergent properties of LEDGF/p75 has been elusive. Here we replaced the NDE with strongly divergent chromatin-binding modules. The chimeras rescued integrase tethering and HIV-1 integration in LEDGF/p75-deficient cells. Furthermore, chromatin ligands could reside inside or outside the nucleosome core, and could be protein or DNA. Remarkably, a short Kaposi's sarcoma virus peptide that binds the histone 2A/B dimer converted GFP-IBD from an integration blocker to an integration cofactor that rescues over two logs of infectivity. NDE mutants were corroborative. Chromatin tethering per se is a basic HIV-1 requirement and this rather than engagement of particular chromatin ligands is important for the LEDGF/p75 cofactor mechanism.
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PMID:LEDGF/p75 proteins with alternative chromatin tethers are functional HIV-1 cofactors. 1960 62

The interaction between lens epithelium-derived growth factor/transcriptional co-activator p75 (LEDGF) and human immunodeficiency virus type 1 (HIV-1) integrase (IN) is essential for HIV-1 replication. Homogeneous time-resolved fluorescence resonance energy transfer assays were developed to characterize HIV-1 integrase dimerization and the interaction between LEDGF and IN dimers. Using these assays in an equilibrium end point dose-response format with mathematical modeling, we determined the dissociation constants of IN dimers (K(dimer) = 67.8 pm) and of LEDGF from IN dimers (K(d) = 10.9 nm). When used in a kinetic format, the assays allowed the determination of the on- and off-rate constants for these same interactions. Integrase dimerization had a k(on) of 0.1247 nm(-1) x min(-1) and a k(off) of 0.0080 min(-1) resulting in a K(dimer) of 64.5 pm. LEDGF binding to IN dimers had a k(on) of 0.0285 nm(-1).min(-1) and a k(off) of 0.2340 min(-1) resulting in a K(d) of 8.2 nm. These binding assays can also be used in an equilibrium end point competition format. In this format, the IN catalytic core domain produced a K(i) of 15.2 nm while competing for integrase dimerization, confirming the very tight interaction of IN with itself. In the same format, LEDGF produced a K(i) value of 35 nm when competing for LEDGF binding to IN dimers. In summary, this study describes a methodology combining homogeneous time-resolved fluorescence resonance energy transfer and mathematical modeling to derive the affinities between IN monomers and between LEDGF and IN dimers. This study revealed the significantly tighter nature of the IN-IN dimer compared with the IN-LEDGF interaction.
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PMID:Affinities between the binding partners of the HIV-1 integrase dimer-lens epithelium-derived growth factor (IN dimer-LEDGF) complex. 1980 48

Permanent integration of the viral genome into a host chromosome is an essential step in the life cycles of lentiviruses and other retroviruses. By archiving the viral genetic information in the genome of the host target cell and its progeny, integrated proviruses prevent curative therapy of HIV-1 and make the development of antiretroviral drug resistance irreversible. Although the integration reaction is known to be catalyzed by the viral integrase (IN), the manner in which retroviruses engage and attach to the chromatin target is only now becoming clear. Lens epithelium-derived growth factor (LEDGF/p75) is a ubiquitously expressed nuclear protein that binds to lentiviral IN protein dimers at its carboxyl terminus and to host chromatin at its amino terminus. LEDGF/p75 thus tethers ectopically expressed IN to chromatin. It also protects IN from proteosomal degradation and can stimulate IN catalysis in vitro. HIV-1 infection is inhibited at the integration step in LEDGF/p75-deficient cells, and the characteristic lentiviral preference for integration into active genes is also reduced. A model in which LEDGF/p75 acts to tether the viral preintegration complex to chromatin has emerged. Intriguingly, similar chromatin tethering mechanisms have been described for other retroelements and for large DNA viruses. Here we review the evidence supporting the LEDGF/p75 tethering model and consider parallels with these other viruses.
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PMID:Chromatin tethering and retroviral integration: recent discoveries and parallels with DNA viruses. 1983 75

The present work describes a novel interaction between the human immunodeficiency virus type 1 (HIV-1) Rev protein and the cellular lens epithelium-derived growth factor p75 (LEDGF/p75) protein in vitro and in virus-infected cells. Here we show, for the first time, that formation of an Rev-LEDGF/p75 complex is a crucial step in regulating viral cDNA integration. Coimmunoprecipitation experiments at various times after virus infection revealed that, first, an integrase enzyme (IN)-LEDGF/p75 complex is formed, which is then replaced by a Rev-LEDGF/p75 and Rev-IN complexes. This was supported by in vitro experiments showing that Rev promotes dissociation of the IN-LEDGF/p75 complex. Combination of the viral IN and the cellular LEDGF/p75 is required for proper integration of the viral cDNA into the host chromosomal DNA. Our findings demonstrate that integration of HIV-1 cDNA is regulated by an interplay between viral Rev and the host-cell LEDGF/p75 proteins.
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PMID:Integration of HIV-1 DNA is regulated by interplay between viral rev and cellular LEDGF/p75 proteins. 1985 49

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