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)

To design anti-nucleocapsid drugs, it is useful to know the affinities the protein has for its natural substrates under physiological conditions. Dissociation equilibrium constants are reported for seven RNA stem-loops bound to the mature HIV-1 nucleocapsid protein, NCp7. The loops include SL1, SL2, SL3, and SL4 from the major packaging domain of genomic RNA. The binding assay is based on quenching the fluorescence of tryptophan-37 in the protein by G residues in the single-stranded loops. Tightly bound RNA molecules quench nearly all the fluorescence of freshly purified NCp7 in 0.2 M NaCl. In contrast, when the GGAG-tetraloop of tight-binding SL3 is replaced with UUCG or GAUA, quenching is almost nil, indicating very low affinity. Interpreting fluorescence titrations in terms of a rapidly equilibrating 1:1 complex explains nearly all of the experimental variance for the loops. Analyzed in this way, the highest affinities are for 20mer SL3 and 19mer SL2 hairpin constructs (K(d) = 28 +/- 3 and 23 +/- 2 nM, respectively). The 20mer stem-UUCG-loop and GAUA-loop constructs have <0.5% of the affinity for NCp7 relative to SL3. Affinities relative to SL3 for the other stem-loops are the following: 10% for a 16mer construct to model SL4, 30% for a 27mer model of the 9-residue apical loop of SL1, and 20% for a 23mer model of a 1 x 3 asymmetric internal loop in SL1. A 154mer construct that includes all four stem-loops binds tightly to NCp7, with the equivalent of three NCp7 molecules bound with high affinity per RNA; it is also possible that two strong sites and several weaker ones combine to give the appearance of three strong sites.
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PMID:Affinities of packaging domain loops in HIV-1 RNA for the nucleocapsid protein. 1195 77

We used the intrinsic fluorescence of bovine leukemia virus p12, a nucleocapsid protein with two tryptophan-containing zinc fingers (ZFs), to study its conformation and binding to single-stranded nucleic acids. Spectral emission maxima suggested solvent-exposed tryptophans. A peptide derived from ZF1 had a higher quantum yield and longer average lifetime (tau) than ZF2. BLV p12 tau and rotational correlation time were greater than ZF values, but all de-metallated sequences gave similar results. Apo p12 showed reduced fluorescence intensity, tau and loss of secondary structure. DNA-binding affinity of p12 was in the nanomolar range, and decreased 14-fold after Zn++ ejection. Nucleobase preference of BLV p12 was different from the closely related HTLV-1 but similar to HIV-1 and SIV nucleocapsids, both phylogenetically distant.
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PMID:Fluorescence and nucleic acid binding properties of bovine leukemia virus nucleocapsid protein. 1205 10

Assembly of infectious retroviral particles involves recognition of specific sequences on the viral RNA by the nucleocapsid (NC) domain of the Gag polyprotein, and subsequent stoichiometric binding of the processed NC protein along the entire length of the RNA. NC proteins also act as nucleic acid chaperones. They accelerate nucleic acid hybridization and strand exchange, which may be critical during the initial stages of reverse transcription. In order to better understand these properties, we have studied the nucleic acid helix-destabilizing t(m)-depressing) and binding activities of HIV-1 NCp7 protein with a variety of substrates, and the real-time kinetics of NC-induced strand exchange. At low ionic strength (0.01 M Na phosphate, pH 7.0) and saturating levels of protein, NCp7 displays moderate helix-destabilizing activity on double-stranded DNA. Saturating levels of NCp7 lowered the t(m) of a synthetic 28 base-pair 28(+)/28(-) oligonucleotide duplex by about 10 deg. C (51 to 41 degrees C). The presence of single-stranded calf thymus DNA (equimolar with duplex) eliminated the t(m) depression, whereas double-stranded calf thymus DNA only altered the t(m) of the 28-mer duplex by about 2 deg. C. Similar effects were seen with duplexes with single-stranded overhangs or internal single-stranded gaps. Binding experiments utilizing intrinsic tryptophan quenching indicated significant affinity (K(d) about 0.1 microM) for both single-stranded and double-stranded forms of the 28-mer in 0.01 M sodium phosphate at 25 degrees C, although long-chain (calf thymus double-stranded) DNA displayed a much lower affinity. The effects of NCp7 on the kinetics of nucleic acid annealing, strand exchange, and strand displacement were determined by use of oligonucleotides with end-labeled fluorophores serving as donor-acceptor pairs. NCp7 accelerated all these reactions. In the strand exchange reaction, an imperfect duplex, 28(+)/21(-), was reacted with a perfect complement, 28(-). The kinetics of 28(+)/28(-) annealing in this reaction did not conform to a simple bimolecular model, but could be well fit to the sum of two exponential decays. Addition of stoichiometric levels of NCp7 increased the rate constants of both components, and significantly increased the fraction of exchange associated with the rapid process. Increasing levels of 28(-) also increased the rapid fraction, as well as the rapid rate constant. This concentration dependence indicates that, although the kinetic decays appear biexponential, at least one of the steps is bimolecular. Simple annealing reactions, 28(+) with 28(-), could be fit to single-exponential decays, and their magnitudes in the presence of NCp7 were comparable to the rapid step of annealing observed for exchange reactions, suggesting that this step is connected with annealing. Strand dissociation during exchange was monitored by placing the fluorescent acceptor on the 21(-) strand. The results, though complex, suggest that the slow step of exchange is largely associated with the dissociation of the shorter oligonucleotide. Analogous experiments were performed with variants of these oligonucleotides, and the results are in line with the 28(+)/21(-)/28(-) experiments. On the basis of an analysis of the effect of increasing levels of 28(-) on the formation of the perfect 28 bp duplex from the imperfect duplex, we propose that NCp7 forms a ternary complex intermediate with imperfect duplex and 28(-), and suggest several ways by which such an intermediate would facilitate strand exchange.
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PMID:HIV-1 nucleocapsid protein as a nucleic acid chaperone: spectroscopic study of its helix-destabilizing properties, structural binding specificity, and annealing activity. 1205 20

Indoleamine 2,3-dioxygenase (IDO), an enzyme involved in the catabolism of tryptophan, is expressed in certain cells and tissues, particularly in antigen-presenting cells of lymphoid organs and in the placenta. It was shown that IDO prevents rejection of the fetus during pregnancy, probably by inhibiting alloreactive T cells, and it was suggested that IDO-expression in antigen-presenting cells may control autoreactive immune responses. Degradation of tryptophan, an essential amino acid required for cell proliferation, was reported to be the mechanism of IDO-induced T cell suppression. Because we wanted to study the action of IDO-expressing dendritic cells (DCs) on allogeneic T cells, the human IDO gene was inserted into an adenoviral vector and expressed in DCs. Transgenic DCs decreased the concentration of tryptophan, increased the concentration of kynurenine, the main tryptophan metabolite, and suppressed allogeneic T cell proliferation in vitro. Kynurenine, 3-hydroxykynurenine, and 3-hydroxyanthranilic acid, but no other IDO-induced tryptophan metabolites, suppressed the T cell response, the suppressive effects being additive. T cells, once stopped in their proliferation, could not be restimulated. Inhibition of proliferation was likely due to T cell death because suppressive tryptophan catabolites exerted a cytotoxic action on CD3(+) cells. This action preferentially affected activated T cells and increased gradually with exposure time. In addition to T cells, B and natural killer (NK) cells were also killed, whereas DCs were not affected. Our findings shed light on suppressive mechanisms mediated by DCs and provide an explanation for important biological processes in which IDO activity apparently is increased, such as protection of the fetus from rejection during pregnancy and possibly T cell death in HIV-infected patients.
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PMID:Inhibition of allogeneic T cell proliferation by indoleamine 2,3-dioxygenase-expressing dendritic cells: mediation of suppression by tryptophan metabolites. 1218 37

Antiretroviral therapy (ART) has a significant impact on HIV-1 RNA levels, the CD4 cell count, and immune activation. We examined whether these changes are associated with a change in the rate of tryptophan degradation (expressed as the kynurenine to tryptophan ratio, kyn/trp) as an estimate for the activity of interferon-gamma inducible enzyme indoleamine (, )-dioxygenase (IDO). Plasma levels of tryptophan, kynurenine, and neopterin were measured pretherapy and 6 months postinitiation of therapy in 45 patients with HIV-1 RNA levels of less than 1000 copies/ml 6 months after initiation of ART. Before ART, the patients had decreased tryptophan and increased kynurenine concentrations compared to healthy controls. During ART, average tryptophan levels increased; in the same time kynurenine and kyn/trp decreased (P < 0.001), although not to normal levels. Since pretherapy tryptophan concentrations correlated inversely with neopterin, and kynurenine correlated with viral load and neopterin but not with CD4 cell count, the data support the view that HIV production may induce immune activation and consequently tryptophan is degraded at a higher rate. In agreement, kyn/trp positively correlated with neopterin (r(s) = 0.60, P < 0.001), with virus load (r(s) = 0.37, P = 0.013), and very weakly with CD4(+) cells counts (r(s) = 0.30, P = 0.049). The change in the kyn/trp ratio during ART correlated more strongly with the change in neopterin levels (r(s) = 0.49, P = 0.001) than with the change in HIV RNA levels and weakly with the CD4 cell count. The data underscore the fact that both neopterin production and tryptophan degradation are triggered by immune activation. Tryptophan degradation is increased in HIV infection and partially reversed under ART. The data agree with the concept that immune activation is the common background of IDO activation which may be an important factor underlying T-cell hyporesponsiveness.
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PMID:Effective antiretroviral therapy reduces degradation of tryptophan in patients with HIV-1 infection. 1221 34

Human immunodeficiency virus 1 (HIV-1) encodes a gene product, Vpr, that facilitates the nuclear uptake of the viral pre-integration complex in non-dividing cells and causes infected cells to arrest in the G(2) phase of the cell cycle. Vpr was also shown to cause mitochondrial dysfunction in human cells and budding yeasts, an effect that was proposed to lead to growth arrest and cell killing in budding yeasts and apoptosis in human cells. In this study, we used a genetic selection in Saccharomyces cerevisiae to identify hexameric peptides that suppress the growth arrest phenotype mediated by Vpr. Fifteen selected glutathione S-transferase (GST)-fused peptides were found to overcome to different extents Vpr-mediated growth arrest. Amino acid analysis of the inhibitory peptide sequences revealed the conservation of a di-tryptophan (diW) motif. DiW-containing GST-peptides interacted with Vpr in GST pull-down assays, and their level of interaction correlated with their ability to overcome Vpr-mediated growth arrest. Importantly, Vpr-binding GST-peptides were also found to alleviate Vpr-mediated apoptosis and G(2) arrest in HIV-1-producing CD4(+) T cell lines. Furthermore, they co-localized with Vpr and interfered with its nuclear translocation. Overall, this study defines a class of diW-containing peptides that inhibit HIV-1 Vpr biological activities most likely by interacting with Vpr and interfering with critical protein interactions.
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PMID:Genetic selection of peptide inhibitors of human immunodeficiency virus type 1 Vpr. 1237 52

The high-resolution solution structure of a monomeric circular permuted (cp) variant of the potent HIV-inactivating protein cyanovirin-N (CV-N) was determined by NMR. Comparison with the wild-type (wt) structure revealed that the observed loss in stability of cpCV-N compared to the wt protein is due to less favorable packing of several residues at the pseudo twofold axis that are responsible for holding the two halves of the molecule together. In particular, the N and C-terminal amino acid residues exhibit conformational flexibility, resulting in fewer and less favorable contacts between them. The important hydrophobic and hydrogen-bonding network between residues W49, D89, H90, Y100 and E101 that was observed in wt CV-N is no longer present. For instance, Y100 and E101 are flexible and the tryptophan side-chain is in a different conformation compared to the wt protein. The stability loss amounts to approximately 2kcal/mol and the mobility of the protein is evident by fast amide proton exchange throughout the chain. Mutation of the single proline residue to glycine (P52G) did not substantially affect the stability of the protein, in contrast to the finding for wtCV-N. The binding of high-mannose type oligosaccharides to cpCV-N was also investigated. Similar to wtCV-N, two carbohydrate-binding sites were identified on the protein and the Man alpha1-->2Man linked moieties on the sugar were delineated as binding epitopes. Unlike in wtCV-N, the binding sites on cpCV-N are structurally similar and exhibit comparable binding affinities for the respective sugars. On the basis of the studies presented here and previous results on high-mannose binding to wtCV-N, we discuss a model for the interaction between gp120 and CV-N.
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PMID:Solution structure of a circular-permuted variant of the potent HIV-inactivating protein cyanovirin-N: structural basis for protein stability and oligosaccharide interaction. 1247 63

Efficient packaging of genomic RNA into new HIV-1 virus particles requires that nucleocapsid domains of precursor proteins bind the SL3 tetraloop (G317-G-A-G320) from the 5'-untranslated region. This paper presents the affinities of 35 RNA variants of SL3 for the mature 55mer NC protein, as measured by fluorescence quenching of tryptophan-37 in the protein by nucleobases. The 1:1 complexes that form in 0.2 M NaCl have dissociation constants ranging from 8 nM (GGUG) to 20 microM (GAUA). The highly conserved (GGAG) sequence for the wild type is not the most stable (K(d) = 28 nM), suggesting that other selective pressures beyond the stability of the complex must be satisfied. The leading requirement for strong interaction is for G320, followed closely by G318. Replacing either with U, A, or C reduces affinity by a factor of 15-120. NC-domains from multiple proteins combine to recognize unpaired G(2)-loci, where two guanines are in close proximity. We have previously measured affinities of the NC protein for the important stem-loops of the major packaging domain [Shubsda, M. F., Paoletti, A. C., Hudson, B. S., and Borer, P. N. (2002) Biochemistry 41, 5276-82]. Comparison with the present work shows that the nature of the stem also modulates NC-RNA interactions. Placing the G(2)-loci from the apical SL2 or SL1 loops on the SL3 stem increases affinity by a factor of 2-3, while placing the SL4 loop on the SL3 stem reduces affinity 50-fold. These results are interesting in the context of RNA-protein interaction, as well as for the discovery of antiNC agents for AIDS therapy.
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PMID:Affinities of the nucleocapsid protein for variants of SL3 RNA in HIV-1. 1248 83

The tryptophan repeat motif of the human immunodeficiency virus type-1 (HIV-1) reverse transcriptase (RT) is comprised of a cluster of six tryptophan residues at codons 398, 401, 402, 406, 410 and 414 that are highly conserved amongst primate lentiviral RTs. To determine the contributions of each of these residues for HIV-1 RT dimerization, we introduced changes into cloned DNA and tested the mutant subunits for their capacity to mediate heterodimerization in the yeast two-hybrid system. Changes of residue 401 to either leucine or alanine (but not phenylalanine) and residue 414 to leucine resulted in major reductions in beta-galactosidase activity produced from the reporter gene as compared to yeast expressing wild-type p66 bait and p51 prey fusions. Subunit selective mutagenesis revealed that the effect of these mutations was mediated mainly through the p66 subunit. Introduction of tryptophan mutants into the bacterial expression vector pRT6H/NB-PROT showed that RTs containing W401A or W401L substitutions (but not W401F) and W414L were defective for dimerization in vitro. Consistent with their dimerization defect, the W401A, W401L and W414L mutants were devoid of RT activity. Using the yeast two-hybrid system, we identified several second-site suppressors in p66 that restored interaction of the p66W401A bait to the p51W401A prey. The suppressors (T409I, D110G, V372A and I393M) also restored heterodimerization of bacterially expressed W401A subunits. When introduced into the W401A mutant, T409I was able to restore RT activity to 50% of the wild-type level. Examination of the RT structures revealed that K331 in p51 makes multiple hydrogen bond contacts with residues in the p66 loop spanned by W401 and W414. Consistent with this observation, the K331A RT mutant was dimerization-defective. We conclude that mutations at codons 401 and 414 in p66 impair dimerization by altering the proper positioning of structural elements in between these residues that make important contacts with p51.
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PMID:Role of residues in the tryptophan repeat motif for HIV-1 reverse transcriptase dimerization. 1255 8

HIV-1-infected patients have low circulating tryptophan concentrations despite evidence of adequate dietary intake of this essential amino acid. A chronic increase in inducible tryptophan oxidation is the basis of HIV-1-associated tryptophan depletion. This metabolic process results in the irretrievable loss of tryptophan molecules from the available pool. Such sustained disruption of normal tryptophan metabolism over time disturbs the many metabolic processes involving this amino acid, and has been implicated in some features of AIDS pathogenesis. Normal T-cell function is adversely affected by tryptophan depletion, but the extent of the effect in HIV-1-infected patients is still unclear. Attempting to directly supplement tryptophan is not advised given the potential increase in circulating concentrations of neurotoxic intermediates. Although only preliminary data are available, evidence suggests that antiretroviral and nicotinamide treatments can boost plasma tryptophan concentrations in HIV-1-infected patients and impact the secondary effects of tryptophan depletion. Additional study of this metabolism could lead to improved treatment strategies for patients with HIV infection. In this review I focus on the potential links between disturbed tryptophan metabolism and pathogenesis.
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PMID:Tryptophan depletion and HIV infection: a metabolic link to pathogenesis. 1452 63

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