Lentiviral siRNAs targeting multiple highly conserved RNA sequences of human immunodeficiency virus type 1

Abstract

The high mutation rate of the human immunodeficiency virus (HIV) makes it difficult for any therapy employing a single anti-HIV targeting mechanism to sustain prolonged effect. In an attempt to explore novel therapy for AIDS, we developed and tested lentiviral small interfering RNA (siRNA) vectors targeting multiple highly conserved regions in the HIV type 1 (HIV-1) genome. The siRNA expression cassette was cloned into an extensively deleted HIV-1-derived lentiviral self-inactivating insulator (SIN) insulator [corrected] vector. Although some of the siRNAs targeting sites were also present in the helper construct of the vector system, the production of these lentiviral siRNA vectors were not significantly affected. When tested against different HIV-1 strains including pNL4-3 (subtype B), p89.6 (subtype B) and p90CF402.1.8 (subtype A/E recombinant), the siRNAs targeting conserved gag, pol, int and vpu, but not U3, nef or U5 regions, efficiently inhibited replication of all three viral strains. These lentiviral siRNA vectors also protected host cells from syncytium-forming macrophage- and T-cell-tropic HIV-1-induced cytotoxicity. Transduction of a long-term chronically infected human lymphoma cell line with lentiviral siRNAs resulted in stable inhibition of HIV-1 replication. Northern analysis showed that both genomic and subgenomic viral RNA species were downregulated. In addition, the viral RNA was inhibited in both the nuclear and cytoplasmic compartments of [corrected] chronically infected cells after prolonged passage, suggesting that [corrected] lentiviral siRNAs have a nuclear effect [corrected] Using these lentiviral siRNA [corrected] vectors, we further demonstrated reduced replication kinetics of HIV-1 in primary human peripheral blood lymphocytes. These results suggest that lentiviral siRNAs targeting multiple conserved HIV-1 sequences holds significant promise for the treatment of HIV-1 infections.