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CD8+ T cell stressors converge on shared metabolic–epigenetic networks

Yangtao Shangguan, Jianxiang Wang, Ping‐Chih Ho, Yingxi Xu

2025Trends in Endocrinology and Metabolism7 citationsDOIOpen Access PDF

Abstract

CD8 + T cells are vital for antiviral and antitumor immunity, yet in hostile microenvironments, they experience metabolic stress, leading to mitochondrial damage, metabolic dysregulation, and chromatin remodeling that cause immune dysfunction. Aging further exacerbates these processes, with intrinsic metabolic collapse and extrinsic environmental factors jointly impairing T cell immunity. Metabolites orchestrate key epigenetic modifications, shaping transcriptional programs essential for T cell differentiation and memory formation. This review explores the interconnected metabolic and epigenetic mechanisms governing CD8 + T cell fate decisions, emphasizing how mitochondrial dysfunction, metabolic inflexibility, and nutrient competition drive CD8 + T cell exhaustion, senescence, and age-associated dysfunction. Understanding these metabolic–epigenetic circuits offers novel therapeutic avenues, including metabolic reprogramming and senescence-targeted strategies, to rejuvenate immune responses and enhance immunotherapy outcomes.

Topics & Concepts

EpigeneticsBiologyImmune systemReprogrammingCell metabolismChromatinChromatin remodelingT cellCell fate determinationImmunotherapyEpigenesisMetabolic pathwayCell biologyNeuroscienceMitochondrionCellImmunityMetabolic networkMechanism (biology)ImmunologyInnate immune systemNutrient sensingProgrammed cell deathSystems biologyAcquired immune systemComputational biologySignal transductionmicroRNAPhenotypeCellular differentiationBioinformaticsMemory T cellImmune cells in cancerImmune Cell Function and InteractionEpigenetics and DNA Methylation
CD8+ T cell stressors converge on shared metabolic–epigenetic networks | Litcius