Current Research in Food Science (Jan 2024)

Lacticaseibacillus rhamnosus LRJ-1 alleviates constipation through promoting gut Bacteroides-derived γ-aminobutyric acid production

  • Tianqi Xia,
  • Fuqing Huang,
  • Fangfei Yun,
  • Yayong Liu,
  • Tianwei Wang,
  • Siyue Wang,
  • Sijie Jin,
  • Xingwang Ma,
  • Wenhan Wang,
  • Jianzhuo He,
  • Kunling Teng,
  • Jin Zhong

Journal volume & issue
Vol. 9
p. 100924

Abstract

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Multiple gastrointestinal disorders are associated with impaired gut microbiota. Probiotic Lacticaseibacillus rhamnosus can improve bowel disorder, however, the action mechanism is poorly understood. We integrated multi-omics data from the gut metagenome, metabolome, and colon transcriptome of constipated mice underlying L. rhamnosus LRJ-1 treatment to provide insights into host-microbial metabolic pathway. We found that oral administration of L. rhamnosus LRJ-1 alleviated constipation in mice accompanied by the increased abundances of fecal γ-aminobutyric acid (GABA) and intestinal commensal Bacteroides, and the activation of host GABAergic synapses. B. uniformis was the most enriched Bacteroides species in constipated mice treated with L. rhamnosus LRJ-1, and contributed to the increased abundance of GABA in the gut. Administration of either B. uniformis ATCC 8492 or GABA alleviated constipation and increased gastrointestinal motility in constipated mice. Knockout of the GABA biosynthetic gad gene in B. uniformis ATCC 8492 decreased GABA production and blocked its beneficial effects on constipation. These results confirm the therapeutic potential of L. rhamnosus LRJ-1 in alleviating constipation through promoting gut commensal Bacteroides-derived GABA production. Targeting the gut microbiome to regulate GABA production may open new insights for efficient constipation treatment.

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