UMLS:C0023418 - FACTA Search

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

Five premature termination mutations and five missense mutations were introduced into the portion of cloned Moloney murine leukemia virus (M-MuLV) DNA encoding the Env cytoplasmic domain. All of the mutant DNAs gave rise to replication-competent virus after transfection of NIH/3T3 cells, but several of the mutant DNAs scored as replication-defective when introduced into Rat2 cells. Cell lines stably expressing the mutant DNAs all released virion particles, and in all but one case infectious virus were generated. These viable mutants were all found to have reverted to the wild-type sequence. To generate fully mutant virus stocks, the mutant DNAs were introduced transiently into COS cells, which are resistant to infection with MuLV, thus prohibiting reversion by error-prone mechanisms involving reverse transcription. Virions harvested from the COS cells were confirmed as mutant by analyzing both virion proteins and the viral DNA they generated, and were then tested for infectivity in NIH/3T3 cells. The mutant viruses were infectious, but still rapidly gave rise to revertants. We conclude that the mutations within the cytoplasmic domain do not provide an absolute block to virus replication, but that the mutants replicate more slowly than the wild-type and quickly give rise to revertants with selective advantage for replication.
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PMID:Mutations affecting the cytoplasmic domain of the Moloney murine leukemia virus envelope protein: rapid reversion during replication. 872

10A1 murine leukemia virus can enter cells by using either of two different cell surface phosphate transport proteins, the gibbon ape leukemia virus receptor Glvr-1 (Pit-1) or the amphotropic retrovirus receptor Ram-1 (Pit-2). Glvr-1 and Ram-1 are widely expressed in different tissues, but the relative amounts of each are highly variable. We have developed retrovirus packaging cell lines based on 10A1 virus to take advantage of this dual receptor utilization to improve gene transfer rates in somatic cells of animals and humans, in which the relative levels of the two receptors are not always known. Optimization of the Env expression vector allowed the generation of packaging lines that produce helper-free vector titers up to 10(7)/ml. By interference analysis, we found that a 10A1 pseudotype retroviral vector can utilize Ram-1 for efficient entry into mouse, rat, and human cells and can utilize Glvr-1 for entry into mouse and human cells but not for entry into rat cells. The 10A1 pseudotype vector efficiently enters mouse cells by using Glvr-1, while entry into human cells is much less efficient. Thus, the 10A1 pseudotype packaging cells may be advantageous compared with the standard amphotropic packaging cells because vectors produced by the cells can use an additional receptor for cell entry. These packaging cells will also be useful to further explore the complicated pattern of receptor usage conferred by the 10A1 viral surface protein.
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PMID:Retrovirus packaging cells based on 10A1 murine leukemia virus for production of vectors that use multiple receptors for cell entry. 876 70

The role of the cytoplasmic tail of the Moloney murine leukemia virus transmembrane protein in the regulation of syncytia was examined. Three mutations within the cytoplasmic tail were studied. Linker-insertion in7705-12a is within the viral-associated cytoplasmic tail, linker-insertion in7748-12a is within the R peptide, and a third mutation expresses TM lacking the R peptide (Env R-). The Env R- construct was nonviable in Rat1 cells, however, rapidly reverted to a form containing the R peptide when passaged in NIH/3T3 cells. in7705-12a was temperature-sensitive in Rat1 cells, as previously characterized, but was viable at either temperature in NIH/3T3 cells. in7748-12a was comparable with wild-type M-MuLV. The ability of the env constructs to form large multinucleated syncytia with NIH/3T3 and XC cells were examined using transient expression assays, eliminating reversion events due to viral passage and reverse transcription. The Env R- constructs formed syncytia with NIH/3T3 cells. in7705-12a displays enhanced proteolytic cleavage of the R peptide. Neither linker-insertion mutation in7705-12a or in7748-12a activated fusion with NIH/3T3, despite the abundance of processed TM with in7705-12a. All three mutants were fusion competent with Rat XC cells, even in the absence of any cleavage of the R peptide. These results provide insights regarding steric and the temporal affects of cleavage of the R peptide and the assembly of a fusion competent oligomer.
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PMID:Analysis of mutations within the cytoplasmic domain of the Moloney murine leukemia virus transmembrane protein. 901 29

Human T-cell leukemia/lymphoma virus type 1 (HTLV-1) Rex is an essential regulatory protein that acts at the posttranscriptional level to promote expression of unspliced and singly spliced genes of the virus. Rex functions have been attributed to at least three separate domains of the protein determining nuclear/nucleolar accumulation and RNA binding (overlapping), multimerization, and nuclear export of Rex-responsive RNA. The steady-state intracellular localization of functional Rex molecules is mainly nucleolar. Fusions of wild-type Rex and the ligand binding domain of human estrogen receptor (ER) produced conditional molecules (ERRex and ERalaRex), which remained cytoplasmic in the absence of hormone and in response to hormone colocalized with the nuclear pore complex (NPC). These molecules induced in a hormone-dependent manner the expression of a Rex reporter plasmid and of the HTLV-1 Env protein and fusion of Env expressing cells. In contrast, activation domain mutants (ERRex delta and ERRexGly) translocated from the cytoplasm and acquired a diffuse nuclear localization. These mutants did not associate with the NPC and failed to show any of the expected Rex functions. Rex functions were perturbed by inactivating the RNA binding domain (mutant ERM2) or the oligomerization domain (mutant ERM7). However, these two mutant fusion proteins exhibited a hormone-dependent NPC colocalization. These observations provide in vivo evidence that intranuclear translocation of intact Rex to the NPC is dependent exclusively on a functional activation domain and is not influenced by binding to the target RNA.
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PMID:The activation domain of a hormone inducible HTLV-1 Rex protein determines colocalization with the nuclear pore. 919 98

In order to generate an HIV-1, which is infectious to and induces AIDS-like disease in monkeys, an SIVmac/HIV-1 chimeric virus, designated NM-3rN, which was replication-competent in monkeys, was constructed by recombination between HIV-1 and SIV mac genomes. The NM-3rN enabled to evaluate the efficacy of HIV-1 Env-directed vaccines using macaque monkeys instead of chimpanzees, because NM-3rN had HIV-1 derived Env. Other NM-3rN-derivative chimeric viruses, designated NM-3 and NM-3n, which had defective vpr (plus nef for NM-3) genes, induced long-term persistent infection in monkeys having long-lasting humoral and cell-mediated immune reactions without manifesting the disease. The challenge inoculation with NM-3rN to these defective chimeric virus-infected monkeys resulted in protection. Furthermore, these protected monkeys were also resistant to challenge with another chimeric virus having different antigenicity in V3 loop from that of NM-3 and NM-3n. These results indicate that SIV/HIV-1 chimeric viruses may be a potential candidate for development of anti-AIDS live attenuated vaccines.
Leukemia 1997 Apr
PMID:SIV/HIV-1 chimeric viruses having HIV-1 env gene: a new animal model and a candidate for attenuated live vaccine. 920 10

It has been postulated that dual infections of humans with human immunodeficiency virus (HIV) and human T-cell leukemia/lymphotropic virus (HTLV) may potentiate disease progression. Counterparts of both of these pathogenic human retroviruses have been identified in various simian species indigenous to Asia and Africa, including sooty mangabey monkeys (Cercocebus atys). Using peripheral blood mononuclear cells (PBMC) from a mangabey naturally infected with both SIV and STLV-I, T-cell lines were established and maintained continuously for more than 3 years; these cell lines harbored only a newly identified mangabey STLV-I(sm) or both STLV-I(sm) and the acutely lethal variant SIVsmmPBj14. The dually infected cell line (FEd-P14) was established by de novo infection of mangabey PBMC with SIVsmmPBj14. This cell line was characterized by multiple assays which showed that structural proteins encoded by both viruses were produced in large quantities, but that the predominant viral glycoprotein on the cell surface was the STLV-I(sm) Env. Unusual interactions of the two retroviral glycoproteins were suggested by the formation of syncytia between Raji and the FEd-P14 cells, but not between Raji and simian cells infected with only one retrovirus or human cells infected with HTLV-I. The STLV-I(sm) strain obtained from the sooty mangabey was transmitted to normal macaque and mangabey PBMC and was shown to be unique by sequencing of the entire env gene. STLV-I(sm) from this African species was more closely related to "cosmopolitan" HTLV-I strains than to the prototypic STLV-I from an Asian pig-tailed macaque. In vitro and in vivo studies of STLV-I(sm) and SIVsmm, both isolated from a naturally infected mangabey monkey, may provide insight into disease induction and manifestations associated with coinfection by their human counterparts.
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PMID:Isolation of sooty mangabey simian T-cell leukemia virus type I [STLV-I(sm)] and characterization of a mangabey T-cell line coinfected with STLV-I(sm) and simian immunodeficiency virus SIVsmmPBj14. 928 7

In previous studies, the C-terminal R peptide of the murine leukemia virus (MuLV) Env protein was shown to be a potent inhibitor of viral fusion activity. In the present study, we investigated the molecular determinants in the MuLV Env protein cytoplasmic tail which are important for the fusion inhibition activity of the R peptide. We constructed a series of mutant MuLV env genes which express Env proteins with serial truncations, internal deletions, or amino acid substitutions in the cytoplasmic tail. To analyze their cell fusion activity, we employed a quantitative fusion assay. We found that truncations of up to 7 amino acids from the C terminus of the cytoplasmic tail had no detectable effect on the lack of fusion activity of the full-length Env protein; however, further truncations resulted in a progressive increase in cell fusion activity. Studies of mutant proteins with amino acid substitutions in the cytoplasmic tail showed that Leu-627 plays an important role in fusion inhibition by the R peptide, while most of the other amino acids in the R peptide were not essential for fusion inhibition. Studies of mutant proteins with internal deletions upstream of the cleavage site in the cytoplasmic tail showed that this region is also involved in fusion inhibition by the R peptide, although only to a limited extent. The results are consistent with a model in which the MuLV R peptide exhibits its fusion inhibition activity through interaction with a cellular factor(s).
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PMID:Analysis of the murine leukemia virus R peptide: delineation of the molecular determinants which are important for its fusion inhibition activity. 934 6

The proviral clones 61E and 61C represent two closely related variants of feline leukemia virus (FeLV) that exhibit significant differences in their biological and pathogenic properties. The major pathogenic determinant has been mapped to the extracellular envelope glycoprotein (Env-SU), but the mechanism by which envelope differences influence pathogenesis is not well understood. Moreover, it is unclear whether these viruses infect the same target cells and/or enter cells using the same receptor. In the present study, we exploited a recently developed single cycle infection assay to examine the host range and interference properties of 61E and 61C FeLVs and found that these two FeLV variants differ significantly in their host ranges and receptor usages. FeLV-61C was found to be an ecotropic virus; the entry of viruses bearing a 61C envelope protein (Env-SU) into cell lines was limited to feline T-cells and feline fibroblasts. In contrast, the host range of 61E includes, in addition to all feline cells examined, some canine, murine, and human cell lines. Feline fibroblast and feline T-cells that expressed 61E envelope were resistant to infection with a virus bearing a 61E Env-SU, whereas these same cells were susceptible to infection by an otherwise similar virus pseudotyped with the 61C Env-SU. This pattern of interference was observed in cells expressing 61E envelope alone, in the absence of other FeLV gene products, demonstrating that interference was mediated specifically by Env-SU. Fibroblast cells chronically infected with a 61C virus were partially resistant to infection with a virus having a 61C Env-SU, but were not resistant to infection by a virus having a 61E Env-SU. On the basis of the current understanding of virus-receptor interactions, the lack of interference between 61E and 61C under conditions where there is significant homologous interference, combined with the differences in their host cell range, leads us to conclude that 61E and 61C use two distinct primary cellular receptors for entry.
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PMID:The host range and interference properties of two closely related feline leukemia variants suggest that they use distinct receptors. 951 65

In this work we have studied the intracellular localization properties of the Gag and Env proteins of Moloney murine leukemia virus (MLV) and human immunodeficiency virus (HIV) in dorsal root ganglion (DRG) neurons of rat. These neurons form thick bundles of axons, which facilitates protein localization studies by immunofluorescence analyses. When such neuron cultures were infected with recombinant Semliki Forest virus particles carrying the gag genes of either retrovirus, the expressed Gag proteins were localized to both the somatic and the axonal regions of the DRG neurons. In contrast, the Env proteins were confined only to the somatic region. When the Gag and Env proteins were coexpressed, the Gag proteins were also excluded from the axons. This effect of the Env proteins was shown to be dependent on the concentration of the Gag proteins in the neuron and also to be specific for homologous pairs of retrovirus proteins. Therefore, the results suggest that there are specific interactions between the Env and the Gag proteins of MLV and HIV in the DRG neurons.
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PMID:Specific interactions between retrovirus Env and Gag proteins in rat neurons. 952 3

A retroviral Env molecule consists of a surface glycoprotein (SU) complexed with a transmembrane protein (TM). In turn, these complexes are grouped into oligomers on the surfaces of the cell and of the virion. In the case of murine leukemia viruses (MuLVs), the SU moieties are polymorphic, with SU proteins of different viral isolates directed towards different cell surface receptors. During maturation of the released virus particle, the 16 C-terminal residues of TM (the R peptide or p2E) are removed from the protein by the viral protease; this cleavage is believed to activate the membrane-fusing potential of MuLV Env. We have tested the possibility that different MuLV Env proteins in the same cell can interact with each other, both physically and functionally, in mixed oligomers. We found that coexpressed Env molecules can be precipitated out of cell lysates by antiserum which reacts with only one of them. Furthermore, they can evidently cooperate with each other: if one Env species lacks the R peptide, then it can apparently induce fusion if the SU protein of the other Env species encounters its cognate receptor on the surface of another cell. This functional interaction between different Env molecules has a number of implications with respect to the mechanism of induction of membrane fusion, for the genetic analysis of Env function, and for the design of targeted retroviral vectors for gene therapy.
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PMID:Evidence for cooperation between murine leukemia virus Env molecules in mixed oligomers. 952 76

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