The gibbon ape leukemia viruses (GaLVs) are primate-derived C-type retroviruses with a broad host range. Using an infectious, full-length clone of the GaLV SEATO strain, we have determined that this virus replicates efficiently in 13 of 17 human cell lines tested. In fact, the SB lymphoblast cell line, while resistant to infection by wild-type amphotropic mouse leukemia virus (A-MLV), was infected by GaLV-SEATO. We constructed vectors containing GaLV components and compared the performance of genomes containing an enhancer and promoter derived either from the SEATO or SF strains of GaLV. The GaLV vector genomes were packaged in a Moloney (Mo)MLV core with either an A-MLV or GaLV SEATO envelope. We found that, in some cases, the vector genome appeared to be critical in obtaining optimal infection. For example, vectors with a GaLV SF-based genome infected the human HL60 cell line, whereas vectors with a GaLV SEATO-based genome did not. We also found that most, but not all, of the human cell lines tested were more susceptible to vectors packaged with the GaLV SEATO than A-MLV envelope. The source of the viral core was also important, in that some human cells appeared susceptible to infection only with GaLV genomes packaged in particles composed of a GaLV core and envelope. Our results show that GaLV-based packageable genomes can be expressed in target cells not efficiently infected by vectors containing MoMLV-based genomes. These results suggest that judicious combinations of retroviral genomes and structural components can significantly improve gene transfer into human cells.
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Discovery of a novel retrovirus sequence in an Australian native rodent (Melomys burtoni): a putative link between gibbon ape leukemia virus and koala retrovirus.
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Gibbon ape leukaemia virus (GALV) and koala retrovirus (KoRV) share a remarkably close sequence identity despite the fact that they occur in distantly related mammals on different continents. It has previously been suggested that infection of their respective hosts may have occurred as a result of a species jump from another, as yet unidentified vertebrate host. To investigate possible sources of these retroviruses in the Australian context, DNA samples were obtained from 42 vertebrate species and screened using PCR in order to detect proviral sequences closely related to KoRV and GALV.
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We have sequenced the envelope genes from each of the five members of the gibbon ape leukemia virus (GALV) family of type C retroviruses. Four of the GALVs, including GALV strain SEATO (GALV-S), were originally isolated from gibbon apes, whereas the fifth member of this family, simian sarcoma-associated virus (SSAV), was isolated from a woolly monkey and shares 78% amino acid identity with GALV-S. To determine whether these viruses have identical host ranges, we evaluated the susceptibility of several cell lines to either GALV-S or SSAV infection.
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Gene transfer into human hematopoietic stem cells continues to be complicated by issues of transfer efficiency. We have examined the capacity of newly described retroviral vectors based on the gibbon ape leukemia virus (GaLV) to introduce genes into human hematopoietic progenitor cells. Total nucleated human bone marrow cells were transduced using GaLV vectors packaged with either amphotropic or GaLV envelopes.
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The gibbon ape leukemia viruses (GaLVs) are primate-derived C-type retroviruses with a broad host range. Using an infectious, full-length clone of the GaLV SEATO strain, we have determined that this virus replicates efficiently in 13 of 17 human cell lines tested. In fact, the SB lymphoblast cell line, while resistant to infection by wild-type amphotropic mouse leukemia virus (A-MLV), was infected by GaLV-SEATO.
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