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Genetic strategies for sex-biased persistence of gut microbes across human life

Although compositional variation in the gut microbiome during human development has been extensively investigated, strain-resolved dynamic changes remain to be fully uncovered. In the current study, shotgun metagenomic sequencing data of 12,415 fecal microbiomes from healthy individuals are employed...

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Published in:Nature communications 2023-07, Vol.14 (1), p.4220-16, Article 4220
Main Authors: Tarracchini, Chiara, Alessandri, Giulia, Fontana, Federico, Rizzo, Sonia Mirjam, Lugli, Gabriele Andrea, Bianchi, Massimiliano Giovanni, Mancabelli, Leonardo, Longhi, Giulia, Argentini, Chiara, Vergna, Laura Maria, Anzalone, Rosaria, Viappiani, Alice, Turroni, Francesca, Taurino, Giuseppe, Chiu, Martina, Arboleya, Silvia, Gueimonde, Miguel, Bussolati, Ovidio, van Sinderen, Douwe, Milani, Christian, Ventura, Marco
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Language:English
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Summary:Although compositional variation in the gut microbiome during human development has been extensively investigated, strain-resolved dynamic changes remain to be fully uncovered. In the current study, shotgun metagenomic sequencing data of 12,415 fecal microbiomes from healthy individuals are employed for strain-level tracking of gut microbiota members to elucidate its evolving biodiversity across the human life span. This detailed longitudinal meta-analysis reveals host sex-related persistence of strains belonging to common, maternally-inherited species, such as Bifidobacterium bifidum and Bifidobacterium longum subsp. longum . Comparative genome analyses, coupled with experiments including intimate interaction between microbes and human intestinal cells, show that specific bacterial glycosyl hydrolases related to host-glycan metabolism may contribute to more efficient colonization in females compared to males. These findings point to an intriguing ancient sex-specific host-microbe coevolution driving the selective persistence in women of key microbial taxa that may be vertically passed on to the next generation. Here, via analyses of shotgun metagenomic sequencing data of more than 12,000 fecal microbiomes from healthy individuals, the authors reveal the presence of microbiome genetic traits involved in host mucin metabolism, supporting colonization and persistence of specific bacterial strains preferentially in the intestinal environment of women compared to men.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-023-39931-2