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Gut Microbiota Metabolite Fights Against Dietary Polysorbate 80-Aggravated Radiation Enteritis

Yuan Li, Huiwen Xiao, Jiali Dong, Dan Luo, Haichao Wang, Shuqin Zhang, Tong Zhu, Changchun Zhu, Ming Cui, Saijun Fan

2020Frontiers in Microbiology29 citationsDOIOpen Access PDF

Abstract

Radiation therapy is a cornerstone of modern management methods for malignancies but is accompanied by diverse side effects. In the present study, we showed that food additives such as polysorbate 80 (P80) exacerbate irradiation-induced gastrointestinal (GI) tract toxicity. A 16S ribosomal RNA high-throughput sequencing analysis indicated that P80 consumption altered the abundance and composition of the gut microbiota, leading to severe radiation-induced GI tract injury. Mice harboring fecal microbes from P80-treated mice were highly susceptible to irradiation, and antibiotics-challenged mice also represented more sensitive to radiation following P80 treatment. Importantly, butyrate, a major metabolite of enteric microbial fermentation of dietary fibers, exhibited beneficial effects against P80 consumption-aggravated intestinal toxicity via the activation of G-protein-coupled receptors (GPCRs) and maintenance of the intestinal bacterial composition in irradiated animals. Moreover, butyrate had broad therapeutic effects on common radiation-induced injury. Collectively, our findings demonstrate that P80 are potential risk factors for cancer patients during radiotherapy and indicate that butyrate might be employed as a therapeutic option to mitigate the complications associated with radiotherapy.

Topics & Concepts

Gut floraMetaboliteGastrointestinal tractButyrateToxicityRadiation therapyPharmacologyBiologyAntibioticsMicrobiologyPhysiologyInternal medicineMedicineFood scienceImmunologyFermentationEndocrinologyBiochemistryGut microbiota and healthEffects of Radiation ExposureOral health in cancer treatment