Abstract
Background
Antiretroviral therapy (ART) intensification and disruption of latency have been suggested as strategies to eradicate HIV. ABX464 is a novel antiviral that inhibits HIV RNA biogenesis. We investigated the effect of ABX464 on HIV transcription and total and intact HIV DNA in CD4 + T cells from ART-suppressed participants enrolled in the ABIVAX-005 clinical trial (NCT02990325).
Methods
Peripheral CD4 + T cells were available for analysis from nine ART-suppressed participants who were treated daily with 150mg of ABX464 for 4 weeks. Total and intact HIV DNA, and initiated, 5’elongated, unspliced, polyadenylated and multiply-spliced HIV transcripts, were quantified at weeks 0, 4 and 8 using droplet digital PCR.
Results
We observed a significant decrease in total HIV DNA (p=0.008, median fold-change=0.8) and a lower median level of intact HIV DNA (p=n.s., median fold-change=0.8) after ABX464 treatment (wk 0 vs. 4). Moreover, we observed a decrease in initiated HIV RNA per million CD4 + T cells and per provirus (p=0.05, median fold-change=0.7; p=0.004, median fold-change=0.5, respectively), a trend towards a decrease in the 5’elongated HIV RNA per provirus (p=0.07, median fold-change=0.5), and a lower median level of unspliced HIV RNA (p=n.s., median fold-change=0.6), but no decrease in polyadenylated or multiply-spliced HIV RNA.
Conclusion
In this substudy, ABX464 had a dual effect of decreasing total HIV DNA (and possibly intact proviruses) and decreasing the amount of HIV transcription per provirus. To further characterize its specific mechanism of inhibiting HIV transcription, long-term administration of ABX464 should be studied in a larger cohort.