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G9a/GLP inhibition during ex vivo lymphocyte expansion increases in vivo cytotoxicity of engineered T cells against hepatocellular carcinoma.

Maxine S Y LamJose Antonio Reales-CalderonJin Rong OwJoey J Y AwDamien Zhi Ming TanRagavi VijayakumarErica CeccarelloTommaso TabaglioYan Ting LimWang Loo ChienFritz LaiAnthony Tan TanotoQingfeng ChenRadoslaw Mikolaj SobotaGiulia AdrianiAntonio BertolettiErnesto GuccioneAndrea Pavesi
Published in: Nature communications (2023)
Engineered T cells transiently expressing tumor-targeting receptors are an attractive form of engineered T cell therapy as they carry no risk of insertional mutagenesis or long-term adverse side-effects. However, multiple rounds of treatment are often required, increasing patient discomfort and cost. To mitigate this, we sought to improve the antitumor activity of transient engineered T cells by screening a panel of small molecules targeting epigenetic regulators for their effect on T cell cytotoxicity. Using a model for engineered T cells targetting hepatocellular carcinoma, we find that short-term inhibition of G9a/GLP increases T cell antitumor activity in in vitro models and an orthotopic mouse model. G9a/GLP inhibition increases granzyme expression without terminal T cell differentiation or exhaustion and results in specific changes in expression of genes and proteins involved in pro-inflammatory pathways, T cell activation and cytotoxicity.
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