Shen Xin, Jin Hao, Zhao Feiyan, Kwok Lai-Yu, Zhao Zhixin, Sun Zhihong
Key Laboratory of Dairy Biotechnology and Engineering, Ministry of Education Inner Mongolia Agricultural University Hohhot China.
Key Laboratory of Dairy Products Processing, Ministry of Agriculture and Rural Affairs Inner Mongolia Agricultural University Hohhot China.
Imeta. 2024 Dec 16;3(6):e253. doi: 10.1002/imt2.253. eCollection 2024 Dec.
The precise mechanisms through which probiotics interact with and reshape the native gut microbiota, especially at the species and genetic levels, remain underexplored. This study employed a high-dose probiotic regimen of subsp. [200 billion colony forming units (CFU)/day] over 7 days among healthy participants. Weekly fecal samples were collected for metagenomic sequencing analysis. We found that probiotic intake can significantly enhance the diversity of the gut microbiome and impact single nucleotide variations, growth rates, and network interactions of the resident intestinal bacteria. These adaptive changes in the gut microbiota indicate the swift evolutionary responses of native bacteria to the ecological disturbance presented by probiotic supplementation. Notably, the microbial community appears to undergo rapid and multifaceted ecological adjustments, potentially preceding longer-term evolutionary changes. This knowledge lays the groundwork for further exploration into the mechanisms underlying probiotic-mediated modulation of the gut microbiome, highlighting the necessity of encompassing ecological and evolutionary perspectives in the design and optimization of probiotic applications.
益生菌与天然肠道微生物群相互作用并重塑它们的精确机制,尤其是在物种和基因水平上,仍未得到充分探索。本研究在健康参与者中采用了为期7天的高剂量益生菌方案,即亚种[2000亿菌落形成单位(CFU)/天]。每周收集粪便样本进行宏基因组测序分析。我们发现,摄入益生菌可以显著提高肠道微生物群的多样性,并影响常驻肠道细菌的单核苷酸变异、生长速率和网络相互作用。肠道微生物群的这些适应性变化表明,天然细菌对益生菌补充所带来的生态干扰迅速做出了进化反应。值得注意的是,微生物群落似乎经历了快速且多方面的生态调整,这可能先于长期的进化变化。这一知识为进一步探索益生菌介导的肠道微生物群调节机制奠定了基础,强调了在益生菌应用的设计和优化中纳入生态和进化观点的必要性。
