Zhao Feng, Yue Zhongyu, Zhang Lijiaqi, Qi Yujie, Sun Yunting, Wang Shuling, Tian Qingchang
College of Pharmacy, Hangzhou Normal University, Hangzhou, China.
Key Laboratory of Elemene Class Anti-Cancer Chinese Medicines; Engineering Laboratory of Development and Application of Traditional Chinese Medicines; Collaborative Innovation Center of Traditional Chinese Medicines of Zhejiang Province, Hangzhou Normal University, Hangzhou, China.
J Innate Immun. 2025;17(1):320-340. doi: 10.1159/000546476. Epub 2025 Jun 11.
As sentinel cells of innate immunity, macrophages exhibit microenvironment-driven functional plasticity critical for immune regulation and tissue homeostasis, yet maladaptive metabolic reprogramming-induced polarization dysregulation exacerbates disease progression by manifesting immune dysfunction.
This review systematically deciphers the metabolic signatures governing macrophage polarization - spanning amino acid metabolism, glycolytic flux, lipid dynamics, and iron homeostasis - while dissecting how pathological microenvironments (encompassing tumor niches, atherosclerotic plaques, and obese adipose tissue) co-opt these pathways to drive pathogenesis. Crucially, this analysis demonstrates that cellular metabolism dictates macrophage phenotypic/functional states across disease contexts, with comprehensive decoding of their metabolic networks emerging as imperative for developing next-generation immunotherapies.
Therapeutically, pathogenic polarization may be reversed through strategic interventions targeting metabolite-sensing receptors, pharmacologically blocking metabolic checkpoints, and reprogramming core metabolic modalities to restore immunoregulatory competence.
作为固有免疫的哨兵细胞,巨噬细胞表现出由微环境驱动的功能可塑性,这对免疫调节和组织稳态至关重要,但适应不良的代谢重编程诱导的极化失调通过表现出免疫功能障碍而加剧疾病进展。
本综述系统地解读了控制巨噬细胞极化的代谢特征——包括氨基酸代谢、糖酵解通量、脂质动态和铁稳态——同时剖析了病理微环境(包括肿瘤微环境、动脉粥样硬化斑块和肥胖脂肪组织)如何利用这些途径驱动发病机制。至关重要的是,该分析表明细胞代谢决定了疾病背景下巨噬细胞的表型/功能状态,全面解码其代谢网络对于开发下一代免疫疗法至关重要。
在治疗方面,可通过针对代谢物感应受体的策略性干预、药理学阻断代谢检查点以及重新编程核心代谢模式以恢复免疫调节能力来逆转致病性极化。
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