Latent HIV reservoirs exhibit inherent resistance to elimination by CD8+ T cells
Szu-Han Huang, … , Bruce D. Walker, R. Brad Jones
Szu-Han Huang, … , Bruce D. Walker, R. Brad Jones
Published January 22, 2018
Citation Information: J Clin Invest. 2018;128(2):876-889. https://doi.org/10.1172/JCI97555.
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Research Article AIDS/HIV Immunology

Latent HIV reservoirs exhibit inherent resistance to elimination by CD8+ T cells

Abstract

The presence of persistent, latent HIV reservoirs in CD4+ T cells obstructs current efforts to cure infection. The so-called kick-and-kill paradigm proposes to purge these reservoirs by combining latency-reversing agents with immune effectors such as cytotoxic T lymphocytes. Support for this approach is largely based on success in latency models, which do not fully reflect the makeup of latent reservoirs in individuals on long-term antiretroviral therapy (ART). Recent studies have shown that CD8+ T cells have the potential to recognize defective proviruses, which comprise the vast majority of all infected cells, and that the proviral landscape can be shaped over time due to in vivo clonal expansion of infected CD4+ T cells. Here, we have shown that treating CD4+ T cells from ART-treated individuals with combinations of potent latency-reversing agents and autologous CD8+ T cells consistently reduced cell-associated HIV DNA, but failed to deplete replication-competent virus. These CD8+ T cells recognized and potently eliminated CD4+ T cells that were newly infected with autologous reservoir virus, ruling out a role for both immune escape and CD8+ T cell dysfunction. Thus, our results suggest that cells harboring replication-competent HIV possess an inherent resistance to CD8+ T cells that may need to be addressed to cure infection.

Authors

Szu-Han Huang, Yanqin Ren, Allison S. Thomas, Dora Chan, Stefanie Mueller, Adam R. Ward, Shabnum Patel, Catherine M. Bollard, Conrad Russell Cruz, Sara Karandish, Ronald Truong, Amanda B. Macedo, Alberto Bosque, Colin Kovacs, Erika Benko, Alicja Piechocka-Trocha, Hing Wong, Emily Jeng, Douglas F. Nixon, Ya-Chi Ho, Robert F. Siliciano, Bruce D. Walker, R. Brad Jones

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Figure 4

Combinations of HIV-specific CD8+ T cells with bryostatin (bryo) drive reductions in cell-associated HIV DNA without reducing the intact-inducible reservoir.

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Combinations of HIV-specific CD8+ T cells with bryostatin (bryo) drive r...
(A) ddPCR results from a HIVE assay showing the mean ± SD. (B) QVOA analysis of CD4+ T cells, post-HIVE, show IUPM ± 95% CIs. (C) Higher-resolution QVOA results of a second HIVE assay using CD4+ T cells from the same donor but a different time point. (D) Schematic of CD8+ T cell killing assay: autologous reservoir virus from positive wells of the QVOA was used to infect activated CD4+ T cells from participant OM5011. Gag-specific CD8+ T cell clones were added to the culture to test their ability to eliminate infected cells. (E) Flow cytometry plot of CD8+ T cell killing assay indicating that the Gag-specific CD8+ T cell clone is able to efficiently kill CD4+ T cells infected with HIV from outgrowth assays. (F) HIV-Gag– and Nef-specific CD8+ T cell clones degranulate (CD107a+) in response to treatment with cognate peptides. (G) ddPCR results (mean ± SD) from a HIVE assay using bryostatin with either a Nef-RA9-specific CD8+ T cell, Nef-AL9-specific CD8+ T cell, or Gag-IK9-specific CD8+ T cell. (H) QVOA analysis of CD4+ T cells, post-HIVE, show IUPM ± 95% CIs. (I) Sequencing of viral RNA from supernatants of QVOA wells. Red = escape variants, green = nonescape variants as confirmed by degranulation assays with the CD8+ T cell clone. (J) Results from CD8+ T cell biosensor assay (as described above) using virus from supernatants (sups) of positive QVOA wells of the HIVE assay, treated with bryostatin + Gag-IK9-specific CD8+ T cells, show strong recognition of autologous reservoir virus by the Gag-IK9 CD8+ T cell. P values were calculated by 1-way ANOVA with Tukey’s multiple comparison test.