Litcius/Paper detail

Ecological dynamics of Enterobacteriaceae in the human gut microbiome across global populations

Qi Yin, Ana C. da Silva, Francisco Zorrilla, Ana S. Almeida, Kiran Raosaheb Patil, Alexandre Almeida, Alexandre Almeida, Alexandre Almeida

2025Nature Microbiology67 citationsDOIOpen Access PDF

Abstract

Gut bacteria from the Enterobacteriaceae family are a major cause of opportunistic infections worldwide. Given their prevalence among healthy human gut microbiomes, interspecies interactions may play a role in modulating infection resistance. Here we uncover global ecological patterns linked to Enterobacteriaceae colonization and abundance by leveraging a large-scale dataset of 12,238 public human gut metagenomes spanning 45 countries. Machine learning analyses identified a robust gut microbiome signature associated with Enterobacteriaceae colonization status, consistent across health states and geographic locations. We classified 172 gut microbial species as co-colonizers and 135 as co-excluders, revealing a genus-wide signal of colonization resistance within Faecalibacterium and strain-specific co-colonization patterns of the underexplored Faecalimonas phoceensis. Co-exclusion is linked to functions involved in short-chain fatty acid production, iron metabolism and quorum sensing, while co-colonization is linked to greater functional diversity and metabolic resemblance to Enterobacteriaceae. Our work underscores the critical role of the intestinal environment in the colonization success of gut-associated opportunistic pathogens with implications for developing non-antibiotic therapeutic strategies.

Topics & Concepts

ColonizationEnterobacteriaceaeMicrobiomeBiologyColonisation resistanceGut floraMicrobiologyEcologyZoologyImmunologyBioinformaticsGeneticsEscherichia coliGeneGut microbiota and healthProbiotics and Fermented FoodsClostridium difficile and Clostridium perfringens research