Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Moloney murine leukemia virus (M-MuLV) proviruses carrying integrase (IN) protein tagged either with a simian virus 40 (SV40) nuclear localization signal (NLS) or various antigenic epitopes were generated. Hexahistidine (His(6)), hemagluttinin (HA), or two consecutive HA sequences (2XHA) were fused to the C-terminus of IN as antigenic markers. These epitope-tagged IN proteins were stably expressed through multiple rounds of infection. The IN-His(6), IN-HA, and IN-2XHA proteins, purified from virus, could be immunoprecipitated with antibodies against His(6) and HA, respectively. An M-MuLV provirus encoding the SV40 large T antigen NLS fused to IN at the same position as the epitope tags was also passaged through cells. In contrast to the stability of the epitope tags, the SV40 NLS sequence was rapidly mutated by a frameshift mutation that introduced negatively charged amino acids into the basic NLS. The instability of the NLS suggests that the strong nuclear localization of the IN-SV40 NLS may have detrimental effects on virus assembly. These observations have implications for studying nuclear transport properties of M-MuLV and for engineering a murine-based retroviral vector for gene therapy.
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PMID:Differential effects of C-terminal molecular tagged integrase on replication competent moloney murine leukemia virus. 1096 83

To replicate, a retrovirus must synthesize a cDNA copy of the viral RNA genome and integrate that cDNA into a chromosome of the host. We have investigated the role of a host cell cofactor, HMG I(Y) protein, in integration of human immunodeficiency virus type 1 (HIV-1) and Moloney murine leukemia virus (MoMLV) cDNA. Previously we reported that HMG I(Y) cofractionates with HIV-1 preintegration complexes (PICs) isolated from freshly infected cells. PICs depleted of required components by treatment with high concentrations of salt could be reconstituted by addition of purified HMG I(Y) in vitro. Here we report studies using immunoprecipitation that indicate that HMG I(Y) is associated with MoMLV preintegration complexes. In mechanistic studies, we show for both HIV-1 and MoMLV that each HMG I(Y) monomer must contain multiple DNA binding domains to stimulate integration by HMG I(Y)-depleted PICs. We also find that HMG I(Y) can condense model HIV-1 or MoMLV cDNA in vitro as measured by stimulation of intermolecular ligation. This reaction, like reconstitution of integration, depends on the presence of multiple DNA binding domains in each HMG I(Y) monomer. These data suggest that binding of multivalent HMG I(Y) monomers to multiple cDNA sites compacts retroviral cDNA, thereby promoting formation of active integrase-cDNA complexes.
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PMID:Retroviral cDNA integration: stimulation by HMG I family proteins. 1106 91

A sensitive and quantitative cell-free infection assay, utilizing recombinant human T-cell leukemia virus type 1 (HTLV-1)-based vectors, was developed in order to analyze early events in the virus replication cycle. Previous difficulties with the low infectivity and restricted expression of the virus have prevented a clear understanding of these events. Virus stocks were generated by transfecting cells with three plasmids: (i) a packaging plasmid encoding HTLV-1 structural and regulatory proteins, (ii) an HTLV-1 transfer vector containing either firefly luciferase or enhanced yellow fluorescent protein genes, and (iii) an envelope expression plasmid. Single-round infections were initiated by exposing target cells to filtered supernatants and quantified by assaying for luciferase activity in cell extracts or by enumerating transduced cells by flow cytometry. Transduction was dependent on reverse transcription and integration of the recombinant virus genome, as shown by the effects of the reverse transcriptase inhibitor 3'-azido-3'-deoxythymidine (AZT) and by mutation of the integrase gene in the packaging vector, respectively. The 50% inhibitory concentration of AZT was determined to be 30 nM in this HTLV-1 replication system. The stability of HTLV-1 particles, pseudotyped with either vesicular stomatitis virus G protein or HTLV-1 envelope, was typical of retroviruses, exhibiting a half-life of approximately 3.5 h at 37 degrees C. The specific infectivity of recombinant HTLV-1 virions was at least 3 orders of magnitude lower than that of analogous HIV-1 particles, though both were pseudotyped with the same envelope. Thus, the low infectivity of HTLV-1 is determined in large part by properties of the core particle and by the efficiency of postentry processes.
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PMID:Examining human T-lymphotropic virus type 1 infection and replication by cell-free infection with recombinant virus vectors. 1150 91

Retroviral integration results in the stable and coordinated insertion of the two termini of the linear viral DNA into the host genome. An in vitro concerted two-end integration reaction catalyzed by the Moloney murine leukemia virus (M-MuLV) integrase (IN) was used to investigate the binding and coordination of the two viral DNA ends. Comparison of the two-end integration and strand transfer assays indicates that zinc is required for efficient concerted integration utilizing plasmid DNA as target. Complementation assays using a pair of nonoverlapping integrase domains, consisting of the HHCC domain and the core/C-terminal region, yielded products containing the correct 4-base target site duplication. The efficiency of the coordinated two-end integration varied depending on the order of addition of the individual protein and DNA components in the complementation assay. Two-end integration was most efficient when the long terminal repeat (LTR) was premixed with either the target DNA or the HHCC domain. The preference for two-end integration through preincubation of the HHCC finger with the viral DNA supports the role of this domain in the recognition and/or positioning of the LTR.
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PMID:Assembly and catalysis of concerted two-end integration events by Moloney murine leukemia virus integrase. 1155 87

The development of new low molecular weight drugs against human immunodeficiency virus Type 1 (HIV-1) targets other than reverse transcriptase (RT) and protease, such as the integrase and the envelope glycoprotein, is likely to take many years. Macromolecular drugs, including antisense oligonucleotides, ribozymes, RNA decoys and transdominant mutant proteins, may be able to interfere with a relatively large number of viral targets, thereby decreasing the likelihood of the emergence of drug-resistant strains. It may also be relatively easy to alter the sequence of some of the macromolecular drugs to counter emerging drug-resistant viruses. The delivery of antisense oligonucleotides and ribozymes to HIV-1 infected or potentially infectable cells by antibody-targeted liposomes, certain cationic lipid formulations and pH-sensitive liposomes results in significant anti-HIV-1 activity. These carriers not only facilitate cytoplasmic delivery but also protect the drugs from nuclease digestion. Delivery of therapeutic genes (another form of macromolecular drug) to target cells is an important challenge of gene therapy. Following delivery by a viral vector, sufficient levels of gene expression must be maintained over an extended period of time to have therapeutic activity. Robust expression of therapeutically useful ribozymes, antisense, decoys and aptamers can be achieved by the use of Pol III expression systems. Moloney murine leukaemia virus- (MoMuLV), adeno-associated virus (AAV)-, or HIV-derived vectors expressing a variety of therapeutic genes have been used successfully to inhibit HIV-1 replication in cultured cells.
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PMID:Delivery of novel macromolecular drugs against HIV-1. 1172 27

The retroviral integrase (IN) carries out the integration of viral DNA into the host genome. The IN protein consists of three domains: the N-terminal HHCC motif, the catalytic core region, and the C-terminus. The Moloney murine leukemia virus (M-MuLV) IN encodes a unique 45-amino-acid domain N-terminal to the HHCC motif. The function of the N-terminus of M-MuLV IN was studied through deletional and mutational analyses. The IN 1-105 domain was dissected into two halves expressing either the unique N-terminus or the HHCC domain. Although the parental IN 1-105 could functionally complement the core-C-terminus for integration reactions, neither half of the N-terminus was sufficient. Partial complementation of strand transfer, but not 3prime prime or minute processing, could be obtained through mixing the two halves. The dimerization of the M-MuLV N-terminus was dependent on the expression of the intact 1-105. Critical basic amino acids within the HHCC domain which are required for 3' processing and strand transfer reactions were identified through alanine mutagenesis. Loss of in vitro strand transfer activity correlated with loss of viral titer in vivo for this cluster of basic amino acids within the HHCC domain.
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PMID:Mutational analysis of the N-terminus of Moloney murine leukemia virus integrase. 1187 74

A specificity protein 1 (Sp1) zinc finger domain containing two tandem zinc fingers was fused to the C terminus of the integrase (IN) protein of the Moloney murine leukemia virus (MuLV). The integrity of the MuLV IN was completely preserved, since the fusion was conducted at the last amino acid residue of the protein. The vector pMIN-Sp1, which carried the fused MuLV IN-Sp1 zinc finger domain gene, was cotransfected with a wild-type MuLV vector pMLV-K to NIH/3T3 cells. A nonradioactive reverse transcriptase assay was performed on culture supernatants collected from the cotransfected cells to confirm the production of recombinant viruses. The expression of the fusion protein and the integration of the MuLV genome by the fusion protein were confirmed by a Northern and then a Southern hybridization analysis on the total RNA or genomic DNA extracted from cells infected by viruses collected from the supernatants of the cotransfected cells. Regions of the host chromosome that were selected by the fusion protein as the integration targets were sequenced using the TOPO(TM) cloning method on a series of PCR products generated with a nested set of primers. The percentage of positive clones screened that contained the DNA-binding sequence of the fused Sp1 zinc finger domain was around 13% (5 out of 39 clones). It was found that the Sp1 DNA-binding sequence was only present in regions that were proximal to one of the long terminal repeats of the integrated viral genome, suggesting that the fusion protein could select a target sequence for integration. The host flanking sequences determined for all the positive clones were also used as queries to perform a BLAST search on the GenBank mouse EST entries. Although matching scores for sequences of some of the clones computed were more significant than others, it was difficult to judge whether or not the integration in these clones had been targeted to some gene sequences. Most of the integration sites might exist in the introns, since we found that the probability of the gene sequences containing an Sp1 DNA-binding site was low.
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PMID:Target integration by a chimeric Sp1 zinc finger domain-Moloney murine leukemia virus integrase in vivo. 1191 85

A hybrid adenoviral vector system was designed to incorporate an excisable retroviral cassette that can be stably integrated into the host cell genome. The vector contains the terminal sequences of two Moloney murine leukemia virus retroviral long terminal repeats (LTRs), fused to form a junction fragment, and is flanked by two loxP recognition sequences. Cre recombinase-directed excision liberates a circular, double-stranded DNA molecule containing the LTR junction fragment. Despite the natural intermediate for retroviral integrase being a linear DNA molecule, we show that, in the presence of Cre and retroviral Gag and Pol, the excised circle can be integrated into the target cell genome through both specific integrase (Int)-directed mechanisms and by a random integration process. The loxP cassette, carrying in addition a selectable marker gene, was incorporated into the E1-deleted region of an adenoviral vector. Infection of cells expressing Cre, Gag, and Pol generated clones that survived long term in drug selection (>3 months). Int-mediated integration was demonstrated in seven of nine clones by sequencing of the integration sites. In addition, the introduction of the loxP cassette into 293 cells coexpressing Cre and Int alone in the absence of other Gag and Pol proteins was sufficient to catalyze the integration mechanism. These experiments demonstrate that it is possible to generate high-titer adenovirus-mediated delivery of a C-type retroviral provirus that can subsequently undergo retroviral Int-mediated integration into dividing and nondividing cells.
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PMID:Novel integrating adenoviral/retroviral hybrid vector for gene therapy. 1193 73

It has been generally believed that oncoretroviruses are dependent on mitosis for efficient nuclear entry of viral DNA. We previously identified a nuclear localization signal in the integrase protein of an oncoretrovirus, avian sarcoma virus (ASV), suggesting an active import mechanism for the integrase-DNA complex (G. Kukolj, R. A. Katz, and A. M. Skalka, Gene 223:157-163, 1998). Here, we have evaluated the requirement for mitosis in nuclear import and integration of ASV DNA. Using a modified ASV encoding a murine leukemia virus amphotropic env gene and a green fluorescent protein (GFP) reporter gene, DNA nuclear import was measured in cell cycle-arrested avian (DF-1) as well as human (HeLa) and mouse cells. The results showed efficient accumulation of nuclear forms of ASV DNA in gamma-irradiation-arrested cells. Efficient transduction of a GFP reporter gene was also observed after infection of cells that were arrested with gamma-irradiation, mitomycin C, nocodazole, or aphidicolin, confirming that nuclear import and integration of ASV DNA can occur in the absence of mitosis. By monitoring GFP expression in individual cells, we also obtained evidence for nuclear import of viral DNA during interphase in cycling cells. Lastly, we observed that ASV can transduce postmitotic mouse neurons. These results support an active nuclear import mechanism for the oncoretrovirus ASV and suggest that this mechanism can operate in both nondividing and dividing cells.
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PMID:Transduction of interphase cells by avian sarcoma virus. 1199 71

The effects of inserting reported nuclear localization signals (NLSs) into the Moloney murine leukemia virus (Mo-MuLV) integrase (IN) protein, within a replication-competent viral construct, were studied. In contrast to the virus harboring IN fused to the simian virus 40 (SV40) large T antigen NLS (SV40 NLS) (J. A. Seamon, M. Adams, S. Sengupta, and M. J. Roth, Virology 274:412-419, 2000), a codon-modified SV40 NLS was stably expressed during viral propagation. Incorporation of the codon-modified SV40 NLS into IN, however, altered the packaging of the Gag-Pol precursor in the virus; viral particles contained decreased levels of reverse transcriptase (RT) and IN. In addition, the virus showed delayed kinetics of viral DNA synthesis upon infection. A panel of infectious MuLVs containing alternative IN-NLS fusions was generated and assayed for cell cycle-independent infection. Viral infection with the NLS-tagged proteins, however, remained dependent on passage of the cells through mitosis. This finding has direct implications for engineering murine-based retroviral vectors for gene therapy.
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PMID:Inserting a nuclear targeting signal into a replication-competent Moloney murine leukemia virus affects viral export and is not sufficient for cell cycle-independent infection. 1213 52


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