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Commensal Oral Rothia mucilaginosa Produces Enterobactin, a Metal-Chelating Siderophore

Carla Uranga, Pablo Arroyo, Brendan M. Duggan, William H. Gerwick, Anna Edlund

2020mSystems71 citationsDOIOpen Access PDF

Abstract

The communication language of the human oral microbiota is vastly underexplored. However, a few studies have shown that specialized small molecules encoded by BGCs have critical roles such as in colonization resistance against pathogens and quorum sensing. Here, by using a genome mining approach in combination with compound screening of growth cultures, we identified that the commensal oral community member R. mucilaginosa harbors a catecholate-siderophore BGC, which is responsible for the biosynthesis of enterobactin. The iron-scavenging role of enterobactin is known to have positive effects on the host’s iron pool and negative effects on host immune function; however, its role in oral health remains unexplored. R. mucilaginosa was previously identified as an abundant community member in cystic fibrosis, where bacterial iron cycling plays a major role in virulence development. With respect to iron’s broad biological importance, iron-chelating enterobactin may explain R. mucilaginosa ’s colonization success in both health and disease.

Topics & Concepts

SiderophoreEnterobactinQuorum sensingMicrobiologyBiologyVirulenceBacteriaColonizationGeneBiochemistryGeneticsGenomics and Phylogenetic StudiesOral microbiology and periodontitis researchMycobacterium research and diagnosis
Commensal Oral Rothia mucilaginosa Produces Enterobactin, a Metal-Chelating Siderophore | Litcius