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Query: UMLS:C0019693 (HIV)
 170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Deletion of a region of the human immunodeficiency virus type 2 (HIV-2) 5' leader RNA reduces genomic RNA encapsidation to about 5% that of wild-type virus with no defect in viral protein production but severely limits virus spread in Jurkat T cells, indicating that this region contains a major cis-acting encapsidation signal, or psi (Psi). Being upstream of the major splice donor, it is present on all viral transcripts. We have shown that HIV-2 selects its genomic RNA for encapsidation cotranslationally, rendering wild-type HIV-2 unable to encapsidate vector RNAs in trans. Virus with Psi deleted, however, encapsidates an HIV-2 vector, demonstrating competition for Gag protein. HIV-2 overcomes the lack of packaging signal location specificity by two novel mechanisms, cotranslational packaging and competition for limiting Gag polyprotein.
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PMID:The major human immunodeficiency virus type 2 (HIV-2) packaging signal is present on all HIV-2 RNA species: cotranslational RNA encapsidation and limitation of Gag protein confer specificity. 1171 96

Murine leukemia virus (MLV) is currently the most widely used gene delivery system in gene therapy trials. The simple retrovirus packages two copies of its RNA genome by a mechanism that involves interactions between the nucleocapsid (NC) domain of a virally-encoded Gag polyprotein and a segment of the RNA genome located just upstream of the Gag initiation codon, known as the Psi-site. Previous studies indicated that the MLV Psi-site contains three stem loops (SLB-SLD), and that stem loops SLC and SLD play prominent roles in packaging. We have developed a method for the preparation and purification of large quantities of recombinant Moloney MLV NC protein, and have studied its interactions with a series of oligoribonucleotides that contain one or more of the Psi-RNA stem loops. At RNA concentrations above approximately 0.3 mM, isolated stem loop SLB forms a duplex and stem loops SL-C and SL-D form kissing complexes, as expected from previous studies. However, neither the monomeric nor the dimeric forms of these isolated stem loops binds NC with significant affinity. Longer constructs containing two stem loops (SL-BC and SL-CD) also exhibit low affinities for NC. However, NC binds with high affinity and stoichiometrically to both the monomeric and dimeric forms of an RNA construct that contains all three stem loops (SL-BCD; K(d)=132(+/-55) nM). Titration of SL-BCD with NC also shifts monomer-dimer equilibrium toward the dimer. Mutagenesis experiments demonstrate that the conserved GACG tetraloops of stem loops C and D do not influence the monomer-dimer equilibrium of SL-BCD, that the tetraloop of stem loop B does not participate directly in NC binding, and that the tetraloops of stem loops C and D probably also do not bind to NC. These surprising results differ considerably from those observed for HIV-1, where NC binds to individual stem loops with high affinity via interactions with exposed residues of the tetraloops. The present results indicate that MLV NC binds to a pocket or surface that only exists in the presence of all three stem loops.
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PMID:Identification of a high affinity nucleocapsid protein binding element within the Moloney murine leukemia virus Psi-RNA packaging signal: implications for genome recognition. 1171 56

Murine cells do not support efficient assembly and release of human immunodeficiency virus type 1 (HIV-1) virions. HIV-1-infected mouse cells that express transfected human cyclin T1 synthesize abundant Gag precursor polyprotein, but inefficiently assemble and release virions. This assembly defect may result from a failure of the Gag polyprotein precursor to target to the cell membrane. Plasma membrane targeting of the precursor is mediated by the amino-terminal region of polyprotein. To compensate for the assembly block, we substituted the murine leukemia virus matrix coding sequences into an infectious HIV-1 clone. Transfection of murine fibroblasts expressing cyclin T1 with the chimeric proviruses resulted in viruses that were efficiently assembled and released. Chimeric viruses, in which the cytoplasmic tail of the transmembrane subunit, gp41, was truncated to prevent potential interference between the envelope glycoprotein and the heterologous matrix, could infect human and murine cells. They failed to further replicate in the murine cells, but replicated with delayed kinetics in human MT-4 cells. These findings may be useful for establishing a murine model for HIV-1 replication.
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PMID:Chimeric human immunodeficiency virus type 1 containing murine leukemia virus matrix assembles in murine cells. 1173 11

In human cells infected by HIV type 1 (HIV-1), the viral Gag protein directs the assembly of nascent viral particles at the plasma membrane. In murine cells, HIV-1 Gag fails to reach the plasma membrane and instead forms nonfunctional intracellular aggregates. The viral determinants of this species incompatibility are previously undefined. To address this problem, we replaced a region of HIV-1 Gag known to direct its localization, the matrix (MA) domain, with functionally homologous regions from Moloney murine leukemia virus (MLV), a murine retrovirus. An HIV-1 clone carrying such a chimeric Gag protein, designated murine HIV (MHIV), assembled more efficiently than nonchimeric HIV-1 and restored plasma membrane localization of Gag in murine cells. Increased efficiency of viral assembly in murine cells was observed from MHIV constructs carrying MLV MA in place of HIV-1 MA. Efficient processing of the HIV-1 capsid protein from the chimeric Gag polyprotein and subsequent infectivity of MHIV required the presence of MLV p12 in addition to MLV MA. These findings strongly suggest that the HIV-1 MA domain of HIV-1 Gag is responsible for the assembly defect in mouse cells. Although these MHIV do not recruit native HIV-1 Env efficiently, they are capable of single-round infection when produced by high-efficiency transfection of human 293 cells and provided with an HIV-1 Env lacking its cytoplasmic tail. With further adaptation, this chimeric MHIV approach may provide the basis for creating an infectious mouse model for HIV/AIDS.
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PMID:Efficient assembly of an HIV-1/MLV Gag-chimeric virus in murine cells. 1174 97

We have previously demonstrated by Gag polyprotein budding assays that the Gag p9 protein of equine infectious anemia virus (EIAV) utilizes a unique YPDL motif as a late assembly domain (L domain) to facilitate release of the budding virus particle from the host cell plasma membrane (B. A. Puffer, L. J. Parent, J. W. Wills, and R. C. Montelaro, J. Virol. 71:6541-6546, 1997). To characterize in more detail the role of the YPDL L domain in the EIAV life cycle, we have examined the replication properties of a series of EIAV proviral mutants in which the parental YPDL L domain was replaced by a human immunodeficiency virus type 1 (HIV-1) PTAP or Rous sarcoma virus (RSV) PPPY L domain in the p9 protein or by proviruses in which the parental YPDL or HIV-1 PTAP L domain was inserted in the viral matrix protein. The replication properties of these L-domain variants were examined with respect to Gag protein expression and processing, virus particle production, and virus infectivity. The data from these experiments indicate that (i) the YPDL L domain of p9 is required for replication competence (assembly and infectivity) in equine cell cultures, including the natural target equine macrophages; (ii) all of the functions of the YPDL L domain in the EIAV life cycle can be replaced by replacement of the parental YPDL sequence in p9 with the PTAP L-domain segment of HIV-1 p6 or the PPPY L domain of RSV p2b; and (iii) the assembly, but not infectivity, functions of the EIAV proviral YPDL substitution mutants can be partially rescued by inclusions of YPDL and PTAP L-domain sequences in the C-terminal region of the EIAV MA protein. Taken together, these data demonstrate that the EIAV YPDL L domain mediates distinct functions in viral budding and infectivity and that the HIV-1 PTAP and RSV PPPY L domains can effectively facilitate these dual replication functions in the context of the p9 protein. In light of the fact that YPDL, PTAP, and PPPY domains evidently have distinct characteristic binding specificities, these observations may indicate different portals into common cellular processes that mediate EIAV budding and infectivity, respectively.
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PMID:Functional replacement and positional dependence of homologous and heterologous L domains in equine infectious anemia virus replication. 1179 51

The Gag polyprotein is key to the budding of retroviruses from host cells and is cleaved upon virion maturation, the N-terminal membrane-binding domain forming the matrix protein (MA). The 2.8-A resolution crystal structure of MA of equine infectious anemia virus (EIAV), a lentivirus, reveals that, despite showing no sequence similarity, more than half of the molecule can be superimposed on the MAs of human immunodeficiency virus type 1 (HIV-1) and simian immunodeficiency virus (SIV). However, unlike the structures formed by HIV-1 and SIV MAs, the oligomerization state observed is not trimeric. We discuss the potential of this molecule for membrane binding in the light of conformational differences between EIAV MA and HIV or SIV MA.
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PMID:Structure of equine infectious anemia virus matrix protein. 1179 82

Gag polyprotein precursors play an essential role in the assembly of the HIV particle by polymerizing into a spherical shell at the plasma membrane. In order to define the domains within Gag responsible for this homotypic interaction, we have coupled the technology of the yeast two-hybrid system with the technology of a gene-based, semirandom library. By this method, we have identified a minimal region of Gag capable of efficient self-interaction. This region consists of the N-terminal portion of the nucleocapsid protein (NC), including the first zinc finger and the previously described interaction, or I, domain. In parallel with this randomized approach, individual HIV Gag domains, and combinations of these domains, were tested for potential homotypic and heterotypic interactions in the yeast two-hybrid system. Consistent with the results from the semirandom library screen, only combinations of species containing NC were strongly interacting.
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PMID:Identification of a minimal HIV-1 gag domain sufficient for self-association. 1188 73

The cellular protein Cyclophilin A (Cyp A) is packaged into human immunodeficiency virus type 1 (HIV-1) particles through a specific interaction with the capsid domain of the Gag polyprotein. Inhibition of Cyp A incorporation by mutagenesis or cyclosporin treatment severely affects infectivity of all HIV-1 M subtypes tested. In contrast, the closely related lentiviruses HIV-2 and simian immunodeficiency virus (SIV) do not package Cyp A and are not inhibited by cyclosporin. For the HIV-1 group O isolate MVP5180, it was found that Cyp A incorporation and Cyp A dependence of infectivity did not correlate. This virus incorporates Cyp A but is not sensitive to treatment with cyclosporin A. For a more detailed study concerning the relationship between Cyp A incorporation and Cyp A dependence, we have analyzed five group O isolates for their ability to incorporate Cyp A and their sensitivity to cyclosporin treatment. All group O viruses incorporated Cyp A in comparable amounts as the M-group HIV-1 strain NL4-3. Furthermore, Cyp A incorporation was inhibited by cyclosporin in all cases. However, while isolate MVP 5180 was confirmed to replicate independent of Cyp A, three of the other four isolates were sensitive to cyclosporin treatment. Sequence analysis of the Cyp A binding regions revealed that the proline-rich motif, which is responsible for Cyp A incorporation, was conserved in all four isolates, while some sequence variations were detected in other positions close to this region. These results suggest that Cyp A dependence of replication is influenced by regions outside the Cyp-binding loop and may aid in determination of Cyp A function in HIV-1 replication.
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PMID:Differential dependence of the infectivity of HIV-1 group O isolates on the cellular protein cyclophilin A. 1200 70

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

Peptides of the V3 loop of the HIV-1 envelope glycoprotein gp120 have been shown to bind with high affinity to the immunophilins cyclophilin (Cyp) A, CypB and the FK506-binding protein 12 (FKBP12) [10]. We investigated whether immunophilins affect HIV-1 infection by assuming they are able to bind to the V3 loop of gp120. T cells and peripheral blood mononuclear cells were infected with T-cell-tropic or macrophage-tropic HIV-1 strains, respectively, in the presence of different concentrations of immunophilins. P24 antigen ELISA and real-time PCR measurements demonstrated that exogenously added immunophilins do not influence HIV-1 infection. CypA is known to interact with the HIV-1 Gag polyprotein and to be incorporated into the virions. This incorporation can be prevented by cyclosporin A (CsA) resulting in a decreased yield of infectious virus, the mechanism of which is unknown. We measured a normal production of proviral DNA in the first round of infection in CsA treated cells but afterwards, infection was decreased if CsA was present. Pre-treatment of the HIV-1 inocula with CsA, blocking the function of virus-associated CypA, did not inhibit the ensuing yield of infection. We therefore may conclude that endogenous CypA exerts its action after reverse transcription but before virus maturation, probably during capsid formation. FK520, an immunosuppressor which binds to FKBP, had no effect on HIV-1 infection.
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PMID:Immunophilins and HIV-1 infection. 1218 73


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