Engineered Bacteriophage T4 Nanoparticle as a Potential Targeted Activator of HIV-1 Latency in CD4+ Human T-cells

Abstract

The latent HIV-1 reservoir containing stably integrated and transcriptionally silent proviruses in CD4+ T cells is a major barrier for virus eradication. Targeted reactivation of the latent reservoir remains a major challenge in establishing a path for an HIV-1 cure. Here, we investigated the possibility of reactivating the HIV-1 reservoir by targeting engineered bacteriophage T4 capsid nanoparticles to reservoir cells. The surface lattice of the 120 x 86 nm phage capsid was arrayed with CD4 binding ligands such as recombinant CD4DARPin or the HIV-1 gp140 envelope protein. When exposed to either PBMCs or the resting CD4+ T cells in vitro, these nanoparticles caused T cells activation without inducing global T cell activation. Furthermore, the nanoparticles reactivated HIV-1 proviral transcription that led to virus assembly and release in the J-Lat cells, a cell line model of HIV-1 latency. Intriguingly, the observed T cell activation and HIV-1 latency reversal did not occur through the classic PKC or NFAT pathways suggesting the involvement of a yet unknown pathway. These studies demonstrate that engineered non-infectious bacteriophages could be potentially exploited for HIV-1 cure and other targeted T cell therapies.