Gene editing using a zinc-finger nuclease mimicking the CCR5Δ32 mutation induces resistance to CCR5-using HIV-1.

Methods: ZFNCCR5Δ32 activity was evaluated by heteroduplex formation in human K562 cells. Assessment of ZFNCCR5Δ32 specificity was analysed in silico. The yield of ZFNCCR5Δ32 in cell culture was improved by fluorescence-activated cell sorting, and the anti-HIV potency of ZFNCCR5Δ32 was measured in vitro in TZM-bl cells against HIV-1 strains.

Results: ZFNCCR5Δ32 effectively recognized the CCR5Δ32 region, inducing a frameshift of the CCR5 coding region that resulted in the complete absence of CCR5 expression of mRNA and of protein at the cell surface. CCR5 knockout cells were refractory to HIV-1 infection by the R5-using strain BaL. Unlike previous CCR5 ZFN studies, the new ZFN has no detectable off-target activity.

Conclusion: ZFNCCR5Δ32 effectively recognized the CCR5Δ32 region, inducing a frameshift of the CCR5 coding region that resulted in the complete absence of CCR5 expression of mRNA and of protein at the cell surface. CCR5 knockout cells were refractory to HIV-1 infection by the R5-using strain BaL. Unlike previous CCR5 ZFN studies, the new ZFN has no detectable off-target activity.