BCL-2 antagonism sensitizes cytotoxic T cell–resistant HIV reservoirs to elimination ex vivo
Yanqin Ren, … , Catherine M. Bollard, R. Brad Jones
Yanqin Ren, … , Catherine M. Bollard, R. Brad Jones
Published February 6, 2020
Citation Information: J Clin Invest. 2020;130(5):2542-2559. https://doi.org/10.1172/JCI132374.
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Research Article AIDS/HIV Immunology

BCL-2 antagonism sensitizes cytotoxic T cell–resistant HIV reservoirs to elimination ex vivo

Abstract

Curing HIV infection will require the elimination of a reservoir of infected CD4+ T cells that persists despite HIV-specific cytotoxic T cell (CTL) responses. Although viral latency is a critical factor in this persistence, recent evidence also suggests a role for intrinsic resistance of reservoir-harboring cells to CTL killing. This resistance may have contributed to negative outcomes of clinical trials, where pharmacologic latency reversal has thus far failed to drive reductions in HIV reservoirs. Through transcriptional profiling, we herein identified overexpression of the prosurvival factor B cell lymphoma 2 (BCL-2) as a distinguishing feature of CD4+ T cells that survived CTL killing. We show that the inducible HIV reservoir was disproportionately present in BCL-2hi subsets in ex vivo CD4+ T cells. Treatment with the BCL-2 antagonist ABT-199 was not sufficient to drive reductions in ex vivo viral reservoirs when tested either alone or with a latency-reversing agent (LRA). However, the triple combination of strong LRAs, HIV-specific T cells, and a BCL-2 antagonist uniquely enabled the depletion of ex vivo viral reservoirs. Our results provide rationale for novel therapeutic approaches targeting HIV cure and, more generally, suggest consideration of BCL-2 antagonism as a means of enhancing CTL immunotherapy in other settings, such as cancer.

Authors

Yanqin Ren, Szu Han Huang, Shabnum Patel, Winiffer D. Conce Alberto, Dean Magat, Dughan Ahimovic, Amanda B. Macedo, Ryan Durga, Dora Chan, Elizabeth Zale, Talia M. Mota, Ronald Truong, Thomas Rohwetter, Chase D. McCann, Colin M. Kovacs, Erika Benko, Avery Wimpelberg, Christopher Cannon, W. David Hardy, Alberto Bosque, Catherine M. Bollard, R. Brad Jones

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Figure 2

CD8+ CTL preferentially eliminate CD4+ T cells with low BCL-2 expression levels.

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CD8+ CTL preferentially eliminate CD4+ T cells with low BCL-2 expression...
(A) Schematic of peptide-pulse and killing assay. (B) Representative gating strategy of flow cytometry plots to identify surviving CD4+ T cells and CD4/CD8 ratios in either no-treatment or + peptide + CTL conditions. (C) Graph of total BCL-2 MFI (left axis, black line) and CD4+ T cell viability normalized to the no-treatment condition (right axis, brown line), following a peptide-pulse killing assay. Total BCL-2 MFI was calculated based on viable CD4+ T cells. The dashed line indicates the BCL-2 MFI of an untreated control. (D) Flow cytometry plots depicting BCL-2 gating strategy for BCL-2hi and BCL-2lo populations. (E) Graph depicting CD4+ T cell counts in BCL-2hi (right axis, blue) and BCL-2lo (left axis, black) populations after CTL killing with different concentration peptide-pulsing treatments. Samples were run in triplicate, and shown are median ± range. (F) The data shown are analogous to those in C, but with 2 additions: (a) killing assays were performed in parallel on CD4+ cells that had either been activated with anti-CD3/anti-CD28 or were used directly ex vivo (nonactivated); and (b) the markers CD45RA and CCR7 were included in the flow panel to discriminate naive cells (CD45RA+CCR7+), TCM cells (CD45RA-CCR7+), and TEM cells (CD45RACCR7). Statistical significance was determined by t test. **P < 0.01; ****P < 0.0001.