HIV-1 VprB and C RNA Cleavage by Potent 10–23 DNAzymes That Also Cause Reversal of G2 Cell Cycle Arrest Mediated by Vpr Genes

Accessory Vpr protein of HIV-1 is known to influence several key cellular functions that also impacts on the HIV-1 replication cycle. Besides other activities, it alone causes cell cycle arrest at the G2 phase and thus potentially contribute to the overall pathology. We designed several 10–23 catalytic motifs containing DNAzymes (Dzs) against the full-length Vpr gene from subtype B and checked its activity against VprC gene from one of the Indian HIV-1 isolates. Among several Dzs that showed sequence-specific cleavage activities, Dz-94 was very potent and equally efficient in its ability to cleave full-length VprB and C RNA to completion under standard conditions of cleavage. Although Dz-90 target sequence was fully conserved between VprB and C genes, it was more effective on latter genes, suggesting that spatial structures of RNA at other regions of Vpr can also influence the cleavage activity for this Dz. HIV-1 VprB and C encoding genes under the powerful CMV promoter, when cotransfected into mammalian cells with Dz-94, a potent intracellular inhibition, was observed, which also resulted in reversing the G2 cell cycle arrest mediated by VprB and C proteins. Thus, Dz-94 could potentially be developed to prevent Vpr-mediated cytopathic effects caused by HIV-1 subtype B and C isolates.