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)

The acridinium ester 4-(2-succinimidyloxycarbonylethyl)phenyl-10-methylacridinium 9-carboxylate trifluoromethane sulfonate (AE), which reacts rapidly with alkaline hydrogen peroxide to produce light, has been used as a detection label in a number of assay procedures, including nucleic acid probe-based systems [Nelson et al. (1995) in Nonisotopic Probing, Blotting and Sequencing (Kricka, L. J., Ed.) pp 391-428, Academic Press, Inc., San Diego, CA]. We have synthesized a number of derivatives of this AE and characterized their chemiluminescent properties. These derivatives display significant differences in the kinetics of the chemiluminescence reaction as well as optimal pH for light production. These differences allow two or more derivatives to be simultaneously detected and quantitated in a single reaction vessel. Several of these derivatives have been covalently linked to nucleic acid probe molecules and have been further characterized in regard to chemiluminescence properties as well as hydrolysis of the ester bond in both single- and double-stranded conformations. On the basis of these properties, homogeneous assay formats utilizing DNA probes labeled with various AE derivatives were developed. Simultaneous detection and quantitation of Chlamydia trachomatis and Neisseria gonorrhoeae, the gag and pol regions of HIV, and wild-type and mutant HIV sequences was achieved with high sensitivity and discrimination.
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PMID:Simultaneous detection of multiple nucleic acid targets in a homogeneous format. 867 1

Triple helix formation by oligonucleotides can be extended beyond polypurine tracts with the help of specially designed linkers. In this paper we focus our attention on the integrase-binding site of the HIV-1 virus located on the U5 LTR end which contains two adjacent purine tracts on opposite strands. Two alternate triple helices with a 3'-3' junction in the third strand are considered: 5'-GGTTTTp3'-3'pTGTGT-5' and 5'-GGAAAAp3'-3'pAGAGA-5' The structural plausibility of these triplexes is investigated using molecular mechanics and dynamics simulations, both in vacuo and in aqua. The non-isomorphism of the triplets in the GpT steps in the first sequence, gives rise to non canonical conformations in the torsion angles, hydration appears to be crucial for this triplex. Sugar puckers are predominantly South during in vacuo simulations while they turn East in aqua. In the simulation in aqua the triplexes are shrouded by an hydration shell, however, we have not been able to detect any permanent hydrogen bond bridge between DNA and water. The solvation of ions as well as their radial distribution, appear to be relatively well behaved despite the artifacts known to be generated by the simulation procedure. The experimental feasibility of these structures is discussed.
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PMID:A molecular mechanics and dynamics study of alternate triple-helices involving the integrase-binding site of the HIV-1 virus and oligonucleotides having a 3'-3' internucleotide junction. 872 78

The long terminal repeat (LTR) of human immunodeficiency virus type 1 (HIV-1) contains sequences required for the initiation of gene transcription. Among the substances known to activate the HIV-1 LTR is hydrogen peroxide (H2O2). We report here that H2O2-induced activation of the LTR in the macrophage cell line THP-1 and the lymphocyte cell line, Jurkat, is greatly increased by vanadate. Activation of the LTR by phorbol myristate acetate, tumor necrosis factor alpha, lipopolysaccharide, or Staphylococcus epidermidis extract was not increased by vanadate, indicating some selectivity for H2O2. H2O2 and vanadate also acted synergistically to increase the production of HIV-1 virions by the latently infected macrophage cell line U-1 as determined by p24 antigen release and the detection of intact virions by electron microscopy. Effects were observed at H2O2 and vanadate concentrations down to 3 x 10(-6) M, with high concentrations leading to cell toxicity. Catalase was strongly inhibitory when added prior to the interaction of H2O2 and vanadate, but was considerably less inhibitory when the H2O2 and vanadate were allowed to preincubate prior to the catalase addition. H2O2 reacts with vanadate to form peroxides of vanadate that have potent biological effects. Our findings suggest that among these is the activation of the HIV-1 LTR.
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PMID:Activation of the HIV long terminal repeat and viral production by H2O2-vanadate. 872 29

Water-protein interactions drive protein folding, stabilize the folded structure, and influence molecular recognition and catalysis. We analyzed the closest protein contacts of 10,837 water molecules in crystallographic structures to define a specific hydrophilicity scale reflecting specific rather than bulk solvent interactions. The tendencies of different atom and residue types to be the nearest protein neighbors of bound water molecules correlated with other hydrophobicity scales, verified the relevance of crystallographically determined water positions, and provided a direct experimental measure of water affinity in the context of the folded protein. This specific hydrophilicity was highly correlated with hydrogen-bonding capacity, and correlated better with experimental than computationally derived measures of partitioning between aqueous and organic phases. Atoms with related chemistry clustered with respect to the number of bound water molecules. Neutral and negatively charged oxygen atoms were the most hydrophilic, followed by positively-charged then neutral nitrogen atoms, followed by carbon and sulfur atoms. Agreement between observed side-chain specific hydrophilicity values and values derived from the atomic hydrophilicity scale showed that hydrophilicity values can be synthesized for different functional groups, such as unusual side or main chains, discontinuous epitopes, and drug molecules. Two methods of atomic hydrophilicity analysis provided a measure of complementarity in the interfaces of trypsin:pancreatic trypsin inhibitor and HIV protease:U-75875 inhibitor complexes.
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PMID:Atomic and residue hydrophilicity in the context of folded protein structures. 874 49

A 16-base pair oligo(purine)-oligo(pyrimidine) sequence present in the coding region of two HIV 1 proviral genes (pol and nef) was chosen as a target for triplex-forming oligonucleotides in in vitro transcription assays. Inhibition of transcription elongation was observed with triplex-forming oligonucleotide-acridine conjugates (Acr-15-TCG:5'-Acr-T4CT4G6-3' and Acr-9-TC:5'-Acr-T4CT4-3' where C is 5-methylcytosine) under conditions where the unsubstituted oligomers did not exhibit any inhibitory effect. Both SP6 bacteriophage RNA polymerase and eukaryotic RNA polymerase II were physically blocked by such a triplex barrier. The polymerase arrest is caused by the triple-helical complex involving the hydrogen-bonded oligonucleotide stabilized by the intercalated moiety and not solely by the acridine molecule specifically intercalated at the duplex-triplex junction. The stability of the triple-helical complex formed by the 15-mer containing thymines, cytosine, and guanines (15-TCG) and involving the formation of six contiguous C.GxG base triplets was strongly enhanced in the presence of a benzopyridoindole derivative (BePI), which intercalates in triplex structures. This improvement of the binding affinity led to an increased inhibition of transcription elongation. The present results demonstrate the necessity to use triplex-forming oligonucleotides with high binding affinity and a long residence time on their double-stranded target to efficiently inhibit transcription elongation. These data provide a rational basis for the optimization and the development of triplex-forming oligonucleotides as transcriptional blockers, even when they are targeted to the transcribed portion of a gene, downstream of the transcription initiation site.
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PMID:Specific inhibition of in vitro transcription elongation by triplex-forming oligonucleotide-intercalator conjugates targeted to HIV proviral DNA. 875 10

Design and synthesis of nonpeptidal bis-tetrahydrofuran ligands based upon the X-ray crystal structure of the HIV-1 protease-inhibitor complex 1 led to replacement of two amide bonds and a 10 pi-aromatic system of Ro 31-8959 class of HIV protease inhibitors. Detailed structure-activity studies have now established that the position of ring oxygens, ring size, and stereochemistry are all crucial to potency. Of particular interest, compound 49 with (3S,3aS,6aS)-bis-Thf is the most potent inhibitor (IC50 value 1.8 +/- 0.2 nM; CIC95 value 46 +/- 4 nM) in this series. The X-ray structure of protein-inhibitor complex 49 has provided insight into the ligand-binding site interactions. As it turned out, both oxygens in the bis-Thf ligands are involved in hydrogen-bonding interactions with Asp 29 and Asp 30 NH present in the S2 subsite of HIV-1 protease. Stereoselective routes have been developed to obtain these novel ligands in optically pure form.
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PMID:Nonpeptidal P2 ligands for HIV protease inhibitors: structure-based design, synthesis, and biological evaluation. 876 11

A simple, rapid, and highly efficient method for intramolecular disulfide formation in tryptophan-containing peptides using hydrogen peroxide was elaborated. Solid phase synthesis of the peptide fragment corresponding to 601-617 sequence of transmembrane gp41 glycoprotein of HIV-1 was performed by Fmoc-technique. Coupling of Fmoc-Asn-OH by DCC-HOBt method was shown to be accompanied by a side reaction of dehydration of asparagine amide function with the formation of side product (22%) containing 3-cyanoalanine residue. This side reaction was not observed, when Fmoc-Asn-OH was coupled in the form of its p-nitrophenyl ester and with HOBt as a catalyst.
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PMID:[Hydrogen peroxide for disulfide bridge formation in the synthesis of peptides with the sequence of the immunodominant epitope of HIV gp41 glycoprotein]. 876 65

High-resolution X-ray structures of the complexes of HIV-1 protease (HIV-1PR) with peptidomimetic inhibitors reveal the presence of a structural water molecule which is hydrogen bonded to both the mobile flaps of the enzyme and the two carbonyls flanking the transition-state mimic of the inhibitors. Using the structure-activity relationships of C2-symmetric diol inhibitors, computed-aided drug design tools, and first principles, we designed and synthesized a novel class of cyclic ureas that incorporates this structural water and preorganizes the side chain residues into optimum binding conformations. Conformational analysis suggested a preference for pseudodiaxial benzylic and pseudodiequatorial hydroxyl substituents and an enantiomeric preference for the RSSR stereochemistry. The X-ray and solution NMR structure of the complex of HIV-1PR and one such cyclic urea, DMP323, confirmed the displacement of the structural water. Additionally, the bound and "unbound" (small-molecule X-ray) ligands have similar conformations. The high degree of preorganization, the complementarity, and the entropic gain of water displacement are proposed to explain the high affinity of these small molecules for the enzyme. The small size probably contributes to the observed good oral bioavailability in animals. Extensive structure-based optimization of the side chains that fill the S2 and S2' pockets of the enzyme resulted in DMP323, which was studied in phase I clinical trials but found to suffer from variable pharmacokinetics in man. This report details the synthesis, conformational analysis, structure-activity relationships, and molecular recognition of this series of C2-symmetry HIV-1PR inhibitors. An initial series of cyclic ureas containing nonsymmetric P2/P2' is also discussed.
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PMID:Cyclic HIV protease inhibitors: synthesis, conformational analysis, P2/P2' structure-activity relationship, and molecular recognition of cyclic ureas. 878 49

The human immunodeficiency (HIV) codes for an aspartic protease known to be essential for retroviral maturation and replication. The HIV protease can recognize Phe-Pro and Tyr-Pro sequences as the virus-specific cleavage site. These features provided a basis for the rational design of selective HIV protease-targeted drugs for the treatment of acquired immunodeficiency syndrome (AIDS). HIV protease is formed from two identical 99 amino acid peptides. We replaced the two Cys residues by L-Ala to synthesize [Ala67,95]-HIV-1 protease by the solid phase method and then prepared [Tyr6,42, Nle36,46, (NHCH2COSCH2CO)51-52, Ala67,95] HIV-1 protease (NY-5 isolate) using the thioester chemical ligation method. Based on the substrate transition state, we designed and synthesized a novel class of HIV protease inhibitors containing an unnatural amino acid, (2S, 3S)-3-amino-2-hydroxy-4-phenylbutyric acid, named allophenylnorstatine (Apns) with a hydroxymethylcarbonyl (HMC) isostere. Among them, the conformationally constrained tripeptide kynostatin (KNI)-272 (iQoa-Mta-Apns-Thz-NHBut) was a highly selective and superpotent HIV protease inhibitor (Ki = 0.0055 nM). KNI-272 exhibited potent antiviral activities against both AZT-sensitive and -insensitive clinical HIV-1 isolates as well as HIV-2 with low cytotoxicity. After i.d. administration, bioavailability of KNI-272 was 42.3% in rats. Also, KNI-272 exhibited in vivo anti-HIV activities in human PBMC-SCID mice. The x-ray crystallography and molecular modeling studies showed that the HMC group in KNI-272 interacted excellently with the aspartic acid carboxyl groups of HIV protease active site in the essentially same hydrogen-bonding mode as the transition state. This result implies that the HMC isostere is an ideal transition-state mimic and contributes to the high activity of KNI-272.
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PMID:Design and synthesis of substrate-based peptidomimetic human immunodeficiency virus protease inhibitors containing the hydroxymethylcarbonyl isostere. 878 65

Human immunodeficiency virus (HIV) infection is associated with increased concentrations of neopterin derivatives, released in large quantities by human macrophages on stimulation with interferon-gamma (INF-gamma). Neopterin concentrations thus inversely correlate with absolute CD4+ T-cell numbers and strongly predict progression of disease from latency to AIDS. Investigations of hydrogen peroxide-induced chemiluminescence indicated a potential role of neopterin and 7,8-dihydroneopterin in oxygen free radical-mediated processes. Indeed, 7,8-dihydroneopterin is able to enhance tumor necrosis factor alpha (TNF-alpha)-induced apoptosis, accompanied by an increased production of reactive oxygen intermediates (ROIs). In line with this finding, the same combination appears to contribute to the upregulation of HIV replication due to activation of nuclear factor-kappa B (NF-kappa B), a central enhancer element of the HIV LTR promoter. Thus, besides the role of neopterin as sensitive indicator of disease activity in HIV infection, neopterin derivatives apparently are associated with the cascade of events that regulate the HIV production in infected individuals.
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PMID:Role of neopterin and 7,8-dihydroneopterin in human immunodeficiency virus infection: marker for disease progression and pathogenic link. 886 84

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