Functional antagonism and insights into the biosynthetic potential of human gut-derived microbes

•In contrast to common antimicrobial drugs, gut-derived bacteria showed selective pathogenic inhibition.•Genome sequencing of representative gut strains revealed a repertoire of biosynthetic novelty.•Significant biosynthetic gene clusters are abundant in healthy human microbiome sequencing data.•Gut...

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Veröffentlicht in:	International journal of antimicrobial agents 2024-03, Vol.63 (3), p.107091-107091, Article 107091
Hauptverfasser:	Hussain, Aehtesham, Patwekar, Umera, Mongad, Dattatray S., Nimonkar, Yogesh, Mundhe, Swapnil, Paul, Dhiraj, Prakash, Om, Shouche, Yogesh S.
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Schlagworte:	antimicrobial-small-molecules biosynthetic gene clusters Human-gut microbiome metabolic pathways next-generation probiotic
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container_title	International journal of antimicrobial agents
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creator	Hussain, Aehtesham Patwekar, Umera Mongad, Dattatray S. Nimonkar, Yogesh Mundhe, Swapnil Paul, Dhiraj Prakash, Om Shouche, Yogesh S.
description	•In contrast to common antimicrobial drugs, gut-derived bacteria showed selective pathogenic inhibition.•Genome sequencing of representative gut strains revealed a repertoire of biosynthetic novelty.•Significant biosynthetic gene clusters are abundant in healthy human microbiome sequencing data.•Gut-derived bacterial metabolites are linked to hallmark pathways. The specialised small molecules encoded by commensal microbes mediate distinct functional interactions. However, there is a landscape of antagonistic interactions mediated by specialised strains and their small molecules. Herein, the antagonistic landscape within a collection of 330 human gut-derived commensal microbial strains was elucidated to evaluate antimicrobial interactions as a defensive contributor, and gain new insights into structure-related functions. The potential antagonistic gut-derived strains displayed strain-specific selective inhibition. This is in contrast to common antimicrobial drugs, which typically wipe out a broad range of species and are usually found in environmental microbes. Genome sequencing of representative gut strains revealed the presence of significant biosynthetic gene clusters (BGCs) encoding compound families that contribute to antagonistic activities, and are important in host defence and maintaining gut homeostasis. Subsets of these BGCs were abundant in metagenomic sequencing data from healthy individuals. Furthermore, the cell culture secretome of these strains revealed potential biomarkers linked to hallmark pathways. These microorganisms have biosynthetic novelty and are a source of biologically significant natural products. Such natural products are essential in the development of new antimicrobial agents to reduce the usage of broad-spectrum antibiotics and combat antimicrobial resistance.
doi_str_mv	10.1016/j.ijantimicag.2024.107091
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title	Functional antagonism and insights into the biosynthetic potential of human gut-derived microbes
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