Litcius/Paper detail

Microbial metabolite-driven immune reprogramming in tumor immunotherapy: mechanisms and therapeutic perspectives

Yao Lu, Huiping Yuan, Shaojie Liang, Debing Li, Pengfei Jiang, Xian Wang, Ke Zhang, Dechun Liu

2025Frontiers in Immunology14 citationsDOIOpen Access PDF

Abstract

The gut microbiome critically regulates antitumor immunity through its metabolic byproducts, which serve as pivotal mediators of host-microbe crosstalk in tumor immunotherapy. This review synthesizes cutting-edge evidence on how microbial metabolites-including short-chain fatty acids (SCFAs), tryptophan derivatives, and bile acids-reprogram immune cell dynamics and remodel the tumor microenvironment (TME). Mechanistically, metabolites such as butyrate and indole-3-propionic acid (IPA) enhance immune checkpoint inhibitor (ICI) efficacy by epigenetic modulation or metabolic reprogramming. Conversely, kynurenine (a tryptophan metabolite) and secondary bile acids drive resistance by polarizing macrophages toward an immunosuppressive phenotype or exhausting cytotoxic T cells. Metabolite-targeted interventions (such as probiotics, dietary modulation, and engineered microbes) show synergistic potential with ICIs, but require resolution of causal inference limitations, interindividual variability, tumor-context specificity, and dose optimization. Precision microbiome engineering, guided by multi-omics profiling and artificial intelligence, may unlock personalized strategies to overcome immunotherapy resistance.

Topics & Concepts

Immune systemCrosstalkTumor microenvironmentMicrobiomeBiologyEpigeneticsImmunotherapyKynurenineReprogrammingKynurenine pathwayButyrateCancer researchImmunityMetabolic pathwayPhenotypeGut floraComputational biologyImmunologyCancer immunotherapyInnate immune systemCytotoxic T cellTryptophan MetabolismImmune toleranceImmune checkpointBioinformaticsTranscriptomeCellCell biologyEpigenomicsT cellGut microbiota and healthCancer Research and TreatmentsTryptophan and brain disorders