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Metabolic modelling reveals the aging-associated decline of host–microbiome metabolic interactions in mice

Lena Best, Thomas Dost, Daniela Esser, Stefano Flor, Andy Mercado-Gamarra, Madlen Haase, A. Samer Kadibalban, Γεώργιος Μαρίνος, Alesia Walker, Johannes Zimmermann, Rowena Simon, S. Schmidt, Jan Taubenheim, Sven Künzel, Robert Häsler, Sören Franzenburg, Marco Groth, Silvio Waschina, Philip Rosenstiel, Felix Sommer, Otto W. Witte, Philippe Schmitt‐Kopplin, John F. Baines, Christiane Frahm, Christoph Kaleta

2025Nature Microbiology49 citationsDOIOpen Access PDF

Abstract

Aging is accompanied by considerable changes in the gut microbiome, yet the molecular mechanisms driving aging and the role of the microbiome remain unclear. Here we combined metagenomics, transcriptomics and metabolomics from aging mice with metabolic modelling to characterize host-microbiome interactions during aging. Reconstructing integrated metabolic models of host and 181 mouse gut microorganisms, we show a complex dependency of host metabolism on known and previously undescribed microbial interactions. We observed a pronounced reduction in metabolic activity within the aging microbiome accompanied by reduced beneficial interactions between bacterial species. These changes coincided with increased systemic inflammation and the downregulation of essential host pathways, particularly in nucleotide metabolism, predicted to rely on the microbiota and critical for preserving intestinal barrier function, cellular replication and homeostasis. Our results elucidate microbiome-host interactions that potentially influence host aging processes. These pathways could serve as future targets for the development of microbiome-based anti-aging therapies.

Topics & Concepts

MicrobiomeBiologyMetabolomicsHost (biology)MetagenomicsTranscriptomeMicrobial metabolismGut microbiomeComputational biologyCell biologyGeneticsBacteriaBioinformaticsGeneGene expressionGut microbiota and healthTryptophan and brain disordersDiet and metabolism studies
Metabolic modelling reveals the aging-associated decline of host–microbiome metabolic interactions in mice | Litcius