Histone lactylation-derived TET2 enhanced Arg1-mediated MDSC immunosuppression
Wenxin Da, Yao Dai, Bo Shen, Yan Zhang, Pengtao Bao, Wei Zhu, Deqiang Wang, Shengjun Wang, Jie Ma

TL;DR
This study shows how lactate in tumors boosts immune suppression by changing histone lactylation and TET2, offering a new cancer treatment target.
Contribution
The study reveals a novel mechanism where histone lactylation enhances MDSC immunosuppression via TET2 and ARG1 upregulation.
Findings
Lactate-induced histone lactylation increases TET2 expression in MDSCs.
TET2 modulates ARG1 promoter methylation through STAT3, enhancing immunosuppression.
This mechanism presents a new therapeutic target for cancer treatment.
Abstract
In the tumor microenvironment (TME), tumor cells secrete a large amounts of lactate due to the “Warburg effect”, which plays a significant role in regulating gene transcription. Recently, the role of lactate in gene transcription has been increasingly understood. Myeloid-derived suppressor cells (MDSCs) are inhibitory cells of bone marrow origin that possess marked abilities to suppress immune cell responses. Within the TME, MDSCs inhibit T cell-mediated specific anti-tumor immunity, as well as non-specific anti-tumor immunity mediated by NK cells and macrophages, by expressing high levels of Arg1, iNOS, and ROS. This study used the Lewis lung carcinoma cell line to establish a lung cancer xenograft model; MDSCs were isolated from the spleens of these mice for subsequent experiments. Protein expression was analyzed by Western blotting, mRNA expression by qRT-PCR, protein-DNA…
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Taxonomy
TopicsImmune cells in cancer · Epigenetics and DNA Methylation · Cancer, Hypoxia, and Metabolism
