ABSTRACT
Background: The kinetics and functional profiles (granzyme-B production) of HIV-specific T-cell responses support that those targeting the early viral gene product Nef disproportionately recognize residual antigen expression during long-term antiretroviral therapy (ART). Here, we leveraged this insight to test whether SARS-CoV2 mRNA vaccines-which activate TLR and inflammatory signaling pathways-would reactivate latent HIV, stimulating T-cell responses with these characteristics. Methods: T-cell responses to individual HIV gene products were measured by IFN-g or granzyme B ELISPOT, and by activation induced marker (AIM) assays at baseline and ∼2 weeks after SARS-CoV-2 mRNA vaccine prime and boost, in 13 long-term ART treated adults. Total and unspliced HIV mRNA, as well as intact and defective (IPDA) HIV DNA were measured in parallel by digital droplet PCR (ddPCR). Results: We observed transient increases Nef-specific T-cell responses following vaccine prime by granzyme B ELISPOT (3.1-fold increase, p=0.002) and a trend by AIM assay (1.5-fold increase, p=0.06). Such increases were not observed in granzyme B responses to late gene products nor in any IFN-g responses. Both unspliced and total HIV mRNA decreased significantly across the study, unspliced-1.6-fold decrease p = 0.03;total-1.5-fold decrease p = 0.05. Changes in total HIV mRNA correlated inversely with Nef-specific granzyme B-producing (spearman's ρ =-0.73, p = 0.006) and Nef-specific CD8+ AIM T-cell responses (ρ =-0.76, p = 0.006) following vaccine prime. These reductions in HIV RNA were not accompanied by significant changes in total or intact HIV DNA. Conclusion: Consistent with our hypothesis, a restricted profile of HIV-specific T-cell responses showed significant increases following SARS-CoV-2 vaccine prime, each of which were then correlated with reductions in HIV RNA. This supports that vaccination promoted productive interactions between Nef-specific CTL and HIV-infected cells in vivo. We propose three scenarios for why this was not reflected in reductions in intact or total HIV DNA: i) meaningful depletions in inducible proviruses occurred but were lost against the background of non-inducible proviruses ii) interactions with CTL involved only a fraction of inducible proviruses, or iii) substantive proviral depletions occurred, but were counterbalanced by clonal expansion of HIV-infected cells.