Abstract

A human immunodeficiency virus type 1 (HIV-1)-based vector expressing an antisense RNA directed against HIV-1 is currently in clinical trials. This vector has shown a remarkable ability to inhibit HIV-1 replication, in spite of the fact that therapeutic use of unmodified antisense RNAs has generally been disappointing. To further analyze the basis for this, we examined the effects of different plasmid-based HIV-1 long-terminal-repeat-driven constructs expressing antisense RNA to the same target region in HIV-1 but containing different export elements. Two of these vectors were designed to express antisense RNA containing either a Rev response element (RRE) or a Mason-Pfizer monkey virus (MPMV) constitutive transport element (CTE). In the third vector, no specific transport element was provided. Efficient inhibition of HIV-1 virus production was obtained with the RRE-driven antisense RNA. This construct also efficiently inhibited p24 production from a pNL4-3 provirus that used the MPMV CTE for RNA export. In contrast, little inhibition was observed with the constructs lacking an RRE. Furthermore, when the RRE-driven antisense RNA was redirected to the Tap/Nxf1 pathway, utilized by the MPMV CTE, through the expression of a RevM10-Tap fusion protein, the efficiency of antisense inhibition was greatly reduced. These results indicate that efficient inhibition requires trafficking of the antisense RNA through the Rev/RRE pathway. Mechanistic studies indicated that the Rev/RRE-mediated inhibition did not involve either nuclear retention or degradation of target mRNA, since target RNA was found to export and associate normally with polyribosomes. However, protein levels were significantly reduced. Taken together, our results suggest a new mechanism for antisense inhibition of HIV mediated by Rev/RRE.

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