BET inhibition reforms the immune microenvironment and alleviates T cell dysfunction in chronic lymphocytic leukemia
Audrey L. Smith, Sydney A. Skupa, Alexandria P. Eiken, Timothy E. Reznicek, Elizabeth Schmitz, Nolan Williams, Dalia Y. Moore, Christopher R. D’Angelo, Avyakta Kallam, Matthew A. Lunning, R. Gregory Bociek, Julie M. Vose, Eslam Mohamed, Anna R. Mahr, Paul W. Denton, Ben Powell, Gideon Bollag, M. Jordan Rowley, Dalia El-Gamal
Audrey L. Smith, Sydney A. Skupa, Alexandria P. Eiken, Timothy E. Reznicek, Elizabeth Schmitz, Nolan Williams, Dalia Y. Moore, Christopher R. D’Angelo, Avyakta Kallam, Matthew A. Lunning, R. Gregory Bociek, Julie M. Vose, Eslam Mohamed, Anna R. Mahr, Paul W. Denton, Ben Powell, Gideon Bollag, M. Jordan Rowley, Dalia El-Gamal
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Research Article Immunology Oncology

BET inhibition reforms the immune microenvironment and alleviates T cell dysfunction in chronic lymphocytic leukemia

Abstract

Redundant tumor microenvironment (TME) immunosuppressive mechanisms and epigenetic maintenance of terminal T cell exhaustion greatly hinder functional antitumor immune responses in chronic lymphocytic leukemia (CLL). Bromodomain and extraterminal (BET) proteins regulate key pathways contributing to CLL pathogenesis and TME interactions, including T cell function and differentiation. Herein, we report that blocking BET protein function alleviates immunosuppressive networks in the CLL TME and repairs inherent CLL T cell defects. The pan-BET inhibitor OPN-51107 reduced exhaustion-associated cell signatures resulting in improved T cell proliferation and effector function in the Eμ-TCL1 splenic TME. Following BET inhibition (BET-i), TME T cells coexpressed significantly fewer inhibitory receptors (IRs) (e.g., PD-1, CD160, CD244, LAG3, VISTA). Complementary results were witnessed in primary CLL cultures, wherein OPN-51107 exerted proinflammatory effects on T cells, regardless of leukemic cell burden. BET-i additionally promotes a progenitor T cell phenotype through reduced expression of transcription factors that maintain terminal differentiation and increased expression of TCF-1, at least in part through altered chromatin accessibility. Moreover, direct T cell effects of BET-i were unmatched by common targeted therapies in CLL. This study demonstrates the immunomodulatory action of BET-i on CLL T cells and supports the inclusion of BET inhibitors in the management of CLL to alleviate terminal T cell dysfunction and potentially enhance tumoricidal T cell activity.

Authors

Audrey L. Smith, Sydney A. Skupa, Alexandria P. Eiken, Timothy E. Reznicek, Elizabeth Schmitz, Nolan Williams, Dalia Y. Moore, Christopher R. D’Angelo, Avyakta Kallam, Matthew A. Lunning, R. Gregory Bociek, Julie M. Vose, Eslam Mohamed, Anna R. Mahr, Paul W. Denton, Ben Powell, Gideon Bollag, M. Jordan Rowley, Dalia El-Gamal

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Figure 5

BET inhibition reduces the expression of inhibitory immune molecules on CLL B cells and T cells ex vivo.

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BET inhibition reduces the expression of inhibitory immune molecules on ...
CLL B cell/healthy donor T cell cocultures were incubated for 48 hours with anti-CD3/anti-CD28 stimuli and OPN-51107 (OPN5; 0.1 μM or 0.5 μM), ibrutinib (IBR; 1 μM), or vehicle equivalent (VEH; DMSO); they were then evaluated by flow cytometry for expression of the indicated markers. (A) Percentages of cocultured CLL B cells expressing immune inhibitory or stimulatory molecules or receptors, normalized to VEH-treated CLL B cell monoculture average (n = 6–11). (B) Percentages of cocultured CD8+ T cells expressing the indicated immune inhibitory receptors (IRs), normalized to VEH-treated T cell monoculture average (n = 6–12). (C) Distribution of cocultured CD8+ T cells into progenitor exhausted (TPEX; PD-1int/TIM3lo/–) and terminally exhausted (TTEX; PD-1hi/TIM3hi) T cell subsets (n = 6–14). Data are represented as mean ± SEM. (D) Percentages of stem-like (Stem; PD-1+TIM3TCF1+) and terminally differentiated (TD; PD-1+TIM3+TCF1) CD8+ T cells in treated T cell monocultures (TC) and CLL B cell cocultures (TC + CLL) (n = 6). (E) Percentages of CD8+ T cells expressing RUNX3, T-BET, BATF, and TCF1, normalized to TC VEH average (n = 6). (F) Percentages of PD-1+, PD-1+TCF1+Ly108+ (progenitor/stem-like exhausted), and PD-1+TIM3+CD101+ (terminally exhausted) CD8+ T cells (n = 5). Significant difference from VEH was calculated using 1-way ANOVA. *P < 0.05, **P < 0.01, ***P < 0.001.