Abstract
Resting CD4+ T-cells harboring inducible HIV proviruses are a critical reservoir in antiretroviral therapy (ART)-treated subjects. These cells express little to no viral protein, and thus neither die by viral cytopathic effects, nor are efficiently cleared by immune effectors. Elimination of this reservoir is theoretically possible by combining latency-reversing agents (LRAs) with immune effectors, such as CD8+ T-cells. However, the relative efficacy of different LRAs in sensitizing latently-infected cells for recognition by HIV-specific CD8+ T-cells has not been determined. To address this, we developed an assay that utilizes HIV-specific CD8+ T-cell clones as biosensors for HIV antigen expression. By testing multiple CD8+ T-cell clones against a primary cell model of HIV latency, we identified several single agents that primed latently-infected cells for CD8+ T-cell recognition, including IL-2, IL-15, two IL-15 superagonists (IL-15SA and ALT-803), prostratin, and the TLR-2 ligand Pam3CSK4. In contrast, we did not observe CD8+ T-cell recognition of target cells following treatment with histone deacetylase inhibitors or with hexamethylene bisacetamide (HMBA). In further experiments we demonstrate that a clinically achievable concentration of the IL-15 superagonist ‘ALT-803’, an agent presently in clinical trials for solid and hematological tumors, primes the natural ex vivo reservoir for CD8+ T-cell recognition. Thus, our results establish a novel experimental approach for comparative evaluation of LRAs, and highlight ALT-803 as an LRA with the potential to synergize with CD8+ T-cells in HIV eradication strategies.
Highlights
Current antiretroviral (ARV) treatment regimens effectively suppress HIV replication, but are unable to cure infection
We identify IL-15, two IL-15 superagonists (IL-15SA–generating by mixing recombinant IL-15 and IL-15Rα-FC and ALT-803 –a compound comprising a human IL-15N72D mutein bound to the human IL-15RαSu/Fc–see Discussion), IL-2, prostratin and Pam3CSK4 as latency-reversing agents (LRAs) that prime latently-infected targets for recognition by CD8+ T-cells
It is generally assumed that the induction of HIV antigen expression by an LRA will be needed to facilitate immunological clearance of infected resting CD4+ T-cells[10], this has not been formally tested
Summary
Current antiretroviral (ARV) treatment regimens effectively suppress HIV replication, but are unable to cure infection. While in a quiescent state, HIV-infected resting CD4+ T-cells do not spontaneously produce virions and express little or no HIV antigen, and are neither killed by viral cytopathic effects, nor effectively targeted by immune effectors[4,5,6,7]. Rather, they persist as a stable reservoir that decays with a half-life of 44 months in ARV-treated individuals [8,9], and which can re-seed systemic infection upon ARV interruption. The “shock-and-kill” paradigm proposes to combine a latency-reversing agent (LRA) with immune effectors, such as CD8+ cytotoxic T-lymphocytes or NK cells, to selectively eliminate HIV-infected resting CD4+ T-cells[10]
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