1. Potent Inhibition of Simian Immunodeficiency Virus (SIV) Replication by an SIV-Based Lentiviral Vector Expressing Antisense Env.
- Author
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Stephen E. Braun, Xiaobin V. Lu, Fay Eng Wong, Michelle Connole, Gang Qiu, Ziping Chen, Tatiana Slepushkina, Vladimir Slepushkin, Laurent M. Humeau, Boro Dropulic, and R. Paul Johnson
- Subjects
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CELLS , *HIV infections , *MICROBIAL genetics , *GENETIC transduction - Abstract
In light of findings demonstrating that the macaque TRIM5αprotein inhibits infection of cells by human immunodeficiency virus (HIV)-1, simian immunodeficiency virus (SIV)-based lentiviral vectors may have distinct advantages over HIV-1 vectors for the transduction of macaque hematopoietic stem cells. We evaluated the ability of an SIV vector (VRX859) encoding an antisense SIV envelope sequence and enhanced green fluorescent protein (GFP) to inhibit viral replication and to transduce rhesus CD34lymphoid progenitor cells. After infection with homologous SIV strains, CD4cell lines transduced with VRX859 exhibited more than 600-fold inhibition of viral replication compared with control cells. Less inhibition was observed with the divergent SIV strain SIVsmE660. Partial inhibition of a chimeric simian–human immunodeficiency virus, which contains an HIV-1 envelope in an SIV backbone, was observed, suggesting that the SIV vector also contributes to viral inhibition independent of the antisense envelope inhibitor. Transduction of rhesus CD34cells with VRX859 at various multiplicities of infection resulted in transduction efficiencies comparable to those obtained with the HIV vector VRX494. However, when we evaluated transduction of rhesus T lymphocyte progenitors by examining GFP expression in CD4T cells derived from transduced CD34cells, we observed more efficient transduction with the SIV-based vector. GFPCD4T cells derived from VRX859-transduced CD34cells strongly inhibited SIVmac239 replication as compared with control CD4T cells. The ability of this SIV-based vector to mediate potent inhibition of SIV replication, coupled with its efficient transduction of rhesus hematopoietic progenitor cells, make it an important candidate for proof-of-principle experiments of stem cell gene therapy in the SIV–macaque model. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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