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)

Menin displays the unique ability to either promote oncogenic function in the hematopoietic lineage or suppress tumorigenesis in the endocrine lineage; however, its molecular mechanism of action has not been defined. We demonstrate here that these discordant functions are unified by menin's ability to serve as a molecular adaptor that physically links the MLL (mixed-lineage leukemia) histone methyltransferase with LEDGF (lens epithelium-derived growth factor), a chromatin-associated protein previously implicated in leukemia, autoimmunity, and HIV-1 pathogenesis. LEDGF is required for both MLL-dependent transcription and leukemic transformation. Conversely, a subset of menin mutations in multiple endocrine neoplasia type 1 patients abrogate interaction with LEDGF while preserving MLL interaction but nevertheless compromise MLL/menin-dependent functions. Thus, LEDGF critically associates with MLL and menin at the nexus of transcriptional pathways that are recurrently targeted in diverse diseases.
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PMID:Menin critically links MLL proteins with LEDGF on cancer-associated target genes. 1859 37

Integration of viral-DNA into host chromosome mediated by the viral protein HIV-1 integrase (IN) is an essential step in the HIV-1 life cycle. In this process, Lens epithelium-derived growth factor (LEDGF/p75) is discovered to function as a cellular co-factor for integration. Since LEDGF/p75 plays an important role in HIV integration, disruption of the LEDGF/p75 interaction with IN has provided a special interest for anti-HIV agent discovery. In this work, we reported that a benzoic acid derivative, 4-[(5-bromo-4-{[2,4-dioxo-3-(2-oxo-2-phenylethyl)-1,3-thiazolidin-5-ylidene]methyl}-2-ethoxyphenoxy)methyl]benzoic acid (D77) could potently inhibit the IN-LEDGF/p75 interaction and affect the HIV-1 IN nuclear distribution thus exhibiting antiretroviral activity. Molecular docking with site-directed mutagenesis analysis and surface plasmon resonance (SPR) binding assays has clarified possible binding mode of D77 against HIV-1 integrase. As the firstly discovered small molecular compound targeting HIV-1 integrase interaction with LEDGF/p75, D77 might supply useful structural information for further anti-HIV agent discovery.
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PMID:D77, one benzoic acid derivative, functions as a novel anti-HIV-1 inhibitor targeting the interaction between integrase and cellular LEDGF/p75. 1869 55

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.
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PMID:Identification and characterization of PWWP domain residues critical for LEDGF/p75 chromatin binding and human immunodeficiency virus type 1 infectivity. 1879 76

We present a high-resolution mass spectrometric (MS) footprinting method enabling identification of contact amino acids in protein-protein complexes. The method is based on comparing surface topologies of a free protein versus its complex with the binding partner using differential accessibility of small chemical group selective modifying reagents. Subsequent MS analysis reveals the individual amino acids selectively shielded from modification in the protein-protein complex. The current report focuses on probing interactions between full-length HIV-1 integrase and its principal cellular partner lens epithelium-derived growth factor. This method has a generic application and is particularly attractive for studying large protein-protein interactions that are less amenable for crystallographic or NMR analysis.
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PMID:Mass spectrometry-based footprinting of protein-protein interactions. 1901 31

Retrovirus integrase (IN) integrates the viral linear DNA genome ( approximately 10 kb) into a host chromosome, a step which is essential for viral replication. Integration occurs via a nucleoprotein complex, termed the preintegration complex (PIC). This article focuses on the reconstitution of synaptic complexes from purified components whose molecular properties mirror those of the PIC, including the efficient concerted integration of two ends of linear viral DNA into target DNA. The methods described herein permit the biochemical and biophysical analyses of concerted integration. The methods enable (1) the study of interactions between purified recombinant IN and its viral DNA substrates at the molecular level; (2) the identification and characterization of nucleoprotein complexes involved in the human immunodeficiency virus type-1 (HIV-1) concerted integration pathway; (3) the determination of the multimeric state of IN within these complexes; (4) dissection of the interaction between HIV-1 IN and cellular proteins such as lens epithelium-derived growth factor (LEDGF/p75); (5) the examination of HIV-1 Class II and strand transfer inhibitor resistant IN mutants; (6) the mechanisms associated with strand transfer inhibitors directed against HIV-1 IN that have clinical relevance in the treatment of HIV-1/AIDS.
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PMID:Biochemical and biophysical analyses of concerted (U5/U3) integration. 1904 78

Integrase (IN) inhibitors have proven to be highly beneficial in the treatment of HIV infection. The recently approved inhibitor, raltegravir, the phase III clinical trials compound elvitegravir, and all other agents reported to be in clinical trials bind to the active site of IN and share the same mechanism of action. There is a high probability for the development of cross resistance among these compounds. Therefore, drugs targeting alternative mechanisms and binding sites on IN are desired. Two potential sites for inhibiting the enzyme have been disclosed recently. The first site is located in the catalytic core domain and is used by the enzyme to bind the host protein lens epithelium-derived growth factor. The second site was identified by the selective covalent trapping of pyridoxal phosphate to the C-terminal domain of the enzyme. The targeting of these sites as a potential novel approach for inhibiting HIV IN is reviewed.
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PMID:New approaches for inhibiting HIV integrase: a journey beyond the active site. 1919 90

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

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

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