Epigenetic modifiers synergize with immune-checkpoint blockade to enhance long-lasting antitumor efficacy
Marina Baretti, Mark Yarchoan
Marina Baretti, Mark Yarchoan
Published August 16, 2021
Citation Information: J Clin Invest. 2021;131(16):e151002. https://doi.org/10.1172/JCI151002.
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Commentary

Epigenetic modifiers synergize with immune-checkpoint blockade to enhance long-lasting antitumor efficacy

Abstract

Immune-checkpoint inhibitors are firmly established as pillars of cancer therapy, but only a minority of cancer patients currently benefit from these therapies, and therapeutic combinations that can enhance responses are urgently needed. Recently, histone deacetylases (HDACs) have emerged as potential targets for immune modulation, but critical questions remain about their mechanisms of action. In this issue of the JCI, Truong et al. assess whether the HDAC inhibitor entinostat can enhance anti–PD-1 treatment in a bladder cancer model. Entinostat promoted a T cell–inflamed phenotype and had substantial antitumor efficacy when used in combination with anti–PD-1 therapy. In addition, the authors showed that HDAC inhibition augmented tumor neoantigen presentation, resulting in the immune editing of tumor antigens. This study highlights a mechanism by which epigenetic modifier agents can synergize with immune-checkpoint blockade for enhanced and long-lasting antitumor activity.

Authors

Marina Baretti, Mark Yarchoan

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Figure 1

Model for tumor neoantigen editing via epigenetic modifiers.

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Model for tumor neoantigen editing via epigenetic modifiers. Entinostat ...
Entinostat promotes tumor cells to express neoantigens. Subsequently, T cells recognize tumor neoantigens, expand, and clear tumor cells. Truong et al. showed that, when combined with anti–PD-1 in bladder cancer models, entinostat enhanced antitumor activity (16).