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  • Title: MuLV packaging systems as models for estimating/measuring retrovirus recombination frequency.
    Author: Patience C, Takeuch Y, Cosset FL, Weiss RA.
    Journal: Dev Biol (Basel); 2001; 106():169-79; discussion 253-63. PubMed ID: 11761229.
    Abstract:
    Interaction of retrovirus vectors and endogenous retroviruses present in packaging cell lines and target cells may result in the formation of recombinant viruses. Using sensitive RT-PCR assays, we have investigated human and murine gene therapy packaging cell lines for the incorporation of endogenous retrovirus transcripts into murine leukaemia virus (MLV) vector particles and whether vector genomes are incorporated into human endogenous retrovirus (HERV) particles. VL30 endogenous retrovirus sequences were packaged in particles produced by the murine AM12 packaging system. For every seven MLV-derived -galactosidase beta-Gal vector genomes present in the particles, one copy of VL30 was also packaged. Although human FLY packaging cells expressed HERV transcripts (HERV-K, HuRT, type C, and RTVL-H), none was detectable in the MLV vector particles released from the cells. Non-specific packaging of the MLV gag-pol expression vector transcripts was detected in the FLY virions at a low level (one in 17,000 sequences). In other experiments, gag proteins produced by HERV-K particles present in human teratocarcinoma cells did not appear to package MLV-based vectors that expressed Gal transcripts. These findings indicate that retrovirus vectors interact with human packaging cells to produce retrovirus particles that are far less contaminated by endogenous viral sequences or other types of extraneous particles than murine packaging cells.
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