Mechanistic insights into consumption of the food additive xanthan gum by the human gut microbiota

黄原胶 食品科学 消费(社会学) 肠道菌群 生物 微生物学 化学 生物化学 流变学 社会科学 材料科学 复合材料 社会学
作者
Matthew P. Ostrowski,Sabina Leanti La Rosa,Benoît J. Kunath,Andrew Robertson,Gabriel Vasconcelos Pereira,Live H. Hagen,Neha Varghese,Ling Qiu,Tianming Yao,Gabrielle Flint,James Li,Sean P. McDonald,Duna Buttner,Nicholas A. Pudlo,Matthew K. Schnizlein,Vincent B. Young,Harry Brumer,Thomas M. Schmidt,Nicolas Terrapon,Vincent Lombard
出处
期刊:Nature microbiology [Nature Portfolio]
卷期号:7 (4): 556-569 被引量:47
标识
DOI:10.1038/s41564-022-01093-0
摘要

Processed foods often include food additives such as xanthan gum, a complex polysaccharide with unique rheological properties, that has established widespread use as a stabilizer and thickening agent. Xanthan gum’s chemical structure is distinct from those of host and dietary polysaccharides that are more commonly expected to transit the gastrointestinal tract, and little is known about its direct interaction with the gut microbiota, which plays a central role in digestion of other dietary fibre polysaccharides. Here we show that the ability to digest xanthan gum is common in human gut microbiomes from industrialized countries and appears contingent on a single uncultured bacterium in the family Ruminococcaceae. Our data reveal that this primary degrader cleaves the xanthan gum backbone before processing the released oligosaccharides using additional enzymes. Some individuals harbour Bacteroides intestinalis that is incapable of consuming polymeric xanthan gum but grows on oligosaccharide products generated by the Ruminococcaceae. Feeding xanthan gum to germfree mice colonized with a human microbiota containing the uncultured Ruminococcaceae supports the idea that the additive xanthan gum can drive expansion of the primary degrader Ruminococcaceae, along with exogenously introduced B. intestinalis. Our work demonstrates the existence of a potential xanthan gum food chain involving at least two members of different phyla of gut bacteria and provides an initial framework for understanding how widespread consumption of a recently introduced food additive influences human microbiomes. The human gut microbiota can metabolize xanthan gum, a food additive that was introduced to our diets relatively recently in processed foods. A Ruminococcaceae species can degrade this complex polysaccharide and, in some individuals, Bacteroides intestinalis can grow on the released oligosaccharide products.
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