Texas A&M College of Medicine, Bryan, TX, United States.
Center for Immunotherapy Research, Cancer Center of Excellence, Houston Methodist Research Institute, Houston, TX, United States.
Front Immunol. 2020 Sep 2;11:1842. doi: 10.3389/fimmu.2020.01842. eCollection 2020.
Tumor-mediated regulation of the host immune system involves an intricate signaling network that results in the tumor's inherent survival benefit. Myeloid cells are central in orchestrating the mechanisms by which tumors escape immune detection and continue their proliferative programming. Myeloid cell activation has historically been classified using a dichotomous system of classical (M1-like) and alternative (M2-like) states, defining general pro- and anti-inflammatory functions, respectively. Explosions in bioinformatics analyses have rapidly expanded the definitions of myeloid cell pro- and anti-inflammatory states with different combinations of tissue- and disease-specific phenotypic and functional markers. These new definitions have allowed researchers to target specific subsets of disease-propagating myeloid cells in order to modify or arrest the natural progression of the associated disease, especially in the context of tumor-immune interactions. Here, we discuss the myeloid cell contribution to solid tumor initiation and maintenance, and strategies to reprogram their phenotypic and functional fate, thereby disabling the network that benefits tumor survival.
肿瘤对宿主免疫系统的调节涉及一个复杂的信号网络,导致肿瘤固有的生存优势。髓系细胞在协调肿瘤逃避免疫检测并继续其增殖编程的机制方面起着核心作用。髓系细胞的激活历来采用经典(M1 样)和替代(M2 样)状态的二分法系统进行分类,分别定义了一般的促炎和抗炎功能。生物信息学分析的爆发迅速扩展了髓系细胞促炎和抗炎状态的定义,具有不同组合的组织和疾病特异性表型和功能标记。这些新定义使研究人员能够针对传播疾病的特定髓系细胞亚群进行靶向,以改变或阻止相关疾病的自然进展,特别是在肿瘤免疫相互作用的背景下。在这里,我们讨论了髓系细胞对实体瘤起始和维持的贡献,以及重新编程其表型和功能命运的策略,从而破坏有利于肿瘤生存的网络。
