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Tim-3 facilitates immune escape in benzene-induced acute myeloid leukemia mouse model by promoting macrophage M2 polarization

Qiong Ning, Tianzi Jian, Siqi Cui, Longke Shi, Xiangdong Jian, Xiaopeng He, Xiangxing Zhang, Xiangxin Li

2023Ecotoxicology and Environmental Safety10 citationsDOIOpen Access PDF

Abstract

Benzene poisoning can cause acute myeloid leukemia (AML) through a variety of passways. Tim-3 has gained prominence as a potential candidate in mediating immunosuppression in tumor microenvironments. The macrophage polarization is also related to immune escape. Herein, we reported that Tim-3 and macrophage M2 polarization play a vital role in benzene-induced AML. First, the benzene-induced AML C3H/He mouse model was constructed by subcutaneously injecting 250 mg/kg of benzene. After six months, macrophage phenotype, cytokines, and Tim-3 expression levels were investigated. Flow cytometry assay revealed that the T-cell inhibitory receptor Tim-3 was significantly upregulated in both bone marrow and spleen of the benzene-induced AML mouse model. Elisa's results displayed a decreased serum level of IL-12 while increased TGF-β1. Mechanistically, changes in cytokine secretion promote the growth of M2-type macrophages in the bone marrow and spleen, as determined by immunofluorescence assay. The increased levels of PI3K, AKT, and mTOR in the benzene-exposure group further proved the crucial role of Tim-3 in regulating the functional status of macrophages in the AML microenvironment. These results demonstrate that Tim-3 and macrophage polarization may play a vital role during the immune escape of the benzene-induced AML. This study provides a new potential intervention site for immune checkpoint-based AML therapeutic strategy.

Topics & Concepts

Macrophage polarizationImmune systemMyeloid leukemiaSpleenBone marrowCancer researchM2 MacrophageTumor microenvironmentMyeloidBiologyMacrophageImmunologyChemistryIn vitroBiochemistryImmune cells in cancerImmune Cell Function and InteractionPhagocytosis and Immune Regulation