Protein Delivery of Cell-Penetrating Zinc-Finger Activators Stimulates Latent HIV-1-Infected Cells

Abstract

Despite efforts to develop effective treatments for eradicating HIV-1, a cure has not yet been achieved. Whereas antiretroviral drugs target an actively replicating virus, latent, nonreplicative forms persist during treatment. Pharmacological strategies that reactivate latent HIV-1 and expose cellular reservoirs to antiretroviral therapy and the host immune system have, so far, been unsuccessful, often triggering severe side effects, mainly due to systemic immune activation. Here, we present an alternative approach for stimulating latent HIV-1 expression via direct protein delivery of cell-penetrating zinc-finger activators (ZFAs). Cys2-His2 zinc-fingers, fused to a transcription activation domain, were engineered to recognize the HIV-1 promoter and induce targeted viral transcription. Following conjugation with multiple positively charged nuclear localization signal (NLS) repeats, protein delivery of a single ZFA (3NLS-PBS1-VP64) efficiently internalized HIV-1 latently infected T-lymphocytes and specifically stimulated viral expression. We show that short-term treatment with this ZFA protein induces higher levels of viral reactivation in cell line models of HIV-1 latency than those observed with gene delivery. Our work establishes protein delivery of ZFA as a novel and safe approach toward eradication of HIV-1 reservoirs.