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Raffinose-metabolizing bacteria impair radiation-associated hematopoietic recovery <i>via</i> the bile acid/FXR/NF-κB signaling pathway

Yang Jiao, Jiawei Ren, Shichang Xie, Nan Yuan, Jiaqi Shen, Huafang Yin, Jian Wang, Hongjuan Guo, Jianping Cao, Xin Wang, Depei Wu, Zhemin Zhou, Xiaofei Qi

2025Gut Microbes11 citationsDOIOpen Access PDF

Abstract

Radiation-associated hematopoietic recovery (RAHR) is critical for mitigating lethal complications of acute radiation syndrome (ARS), yet therapeutic strategies remain limited. Through integrated multi-omics analysis of a total body irradiation (TBI) mouse model, we identify Bacteroides acidifaciens-dominated gut microbiota as key mediators of RAHR impairment. 16S ribosomal rRNA sequencing revealed TBI-induced dysbiosis characterized by Bacteroidaceae enrichment, while functional metagenomics identified raffinose metabolism as the most significantly perturbed pathway. Notably, raffinose supplementation (10% w/v) recapitulated radiation-induced microbiota shifts and delayed bone marrow recovery. Fecal microbiota transplantation (FMT) revealed a causative role for raffinose-metabolizing microbiota, particularly Bacteroides acidifaciens, in delaying RAHR progression. Mechanistically, B. acidifaciens-mediated bile acid deconjugation activated FXR, subsequently suppressing NF-κB-dependent hematopoietic recovery. Therapeutic FXR inhibition via ursodeoxycholic acid (UDCA) had been shown to be a viable method for rescuing RAHR. Our results delineated a microbiome-bile acid-FXR axis as a master regulator of post-irradiation hematopoiesis. Targeting B. acidifaciens or its metabolic derivatives could represent a translatable strategy to mitigate radiation-induced hematopoietic injury.

Topics & Concepts

BiologySignal transductionBacteriaBile acidNF-κBHaematopoiesisMicrobiologyCancer researchCell biologyBiochemistryGeneticsStem cellDNA Repair MechanismsEffects of Radiation ExposureGenomics, phytochemicals, and oxidative stress
Raffinose-metabolizing bacteria impair radiation-associated hematopoietic recovery <i>via</i> the bile acid/FXR/NF-κB signaling pathway | Litcius