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Emerging Advancements in Metabolic Properties of Macrophages within Disease Microenvironment for Immune Therapy

Feng Zhao, Zhongyu Yue, Lijiaqi Zhang, Yujie Qi, Yeque Sun, Shuling Wang, Qingchang Tian

2025Journal of Innate Immunity8 citationsDOIOpen Access PDF

Abstract

BACKGROUND: 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. SUMMARY: 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. KEY MESSAGES: 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.

Topics & Concepts

Immune systemMacrophageDiseaseInnate immune systemImmunologyInflammationChemistryBiologyMedicineBiochemistryInternal medicineIn vitroImmune cells in cancerPhagocytosis and Immune RegulationImmune responses and vaccinations
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