Issue 13, 2023

Metabolomics of bacterial–fungal pairwise interactions reveal conserved molecular mechanisms

Abstract

Bacterial–fungal interactions (BFIs) can shape the structure of microbial communities, but the small molecules mediating these BFIs are often understudied. We explored various optimization steps for our microbial culture and chemical extraction protocols for bacterial–fungal co-cultures, and liquid chromatography-tandem mass spectrometry (LC-MS/MS) revealed that metabolomic profiles are mainly comprised of fungi derived features, indicating that fungi are the key contributors to small molecules in BFIs. LC-inductively coupled plasma MS (LC-ICP-MS) and MS/MS based dereplication using database searching revealed the presence of several known fungal specialized metabolites and structurally related analogues in these extracts, including siderophores such as desferrichrome, desferricoprogen, and palmitoylcoprogen. Among these analogues, a novel putative coprogen analogue possessing a terminal carboxylic acid motif was identified from Scopulariopsis sp. JB370, a common cheese rind fungus, and its structure was elucidated via MS/MS fragmentation. Based on these findings, filamentous fungal species appear to be capable of producing multiple siderophores with potentially different biological roles (i.e. various affinities for different forms of iron). These findings highlight that fungal species are important contributors to microbiomes via their production of abundant specialized metabolites and that elucidating their role in complex communities should continue to be a priority.

Graphical abstract: Metabolomics of bacterial–fungal pairwise interactions reveal conserved molecular mechanisms

Supplementary files

Article information

Article type
Paper
Submitted
15 mar 2023
Accepted
17 may 2023
First published
23 may 2023

Analyst, 2023,148, 3002-3018

Author version available

Metabolomics of bacterial–fungal pairwise interactions reveal conserved molecular mechanisms

G. T. Luu, J. C. Little, E. C. Pierce, M. Morin, C. A. Ertekin, B. E. Wolfe, O. Baars, R. J. Dutton and L. M. Sanchez, Analyst, 2023, 148, 3002 DOI: 10.1039/D3AN00408B

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