Liviana Ricci scite author profile

The human microbiome is an integral component of the human body and a co-determinant of several health conditions1,2. However, the extent to which interpersonal relations shape the individual genetic makeup of the microbiome and its transmission within and across populations remains largely unknown3,4. Here, capitalizing on more than 9,700 human metagenomes and computational strain-level profiling, we detected extensive bacterial strain sharing across individuals (more than 10 million instances) with distinct mother-to-infant, intra-household and intra-population transmission patterns. Mother-to-infant gut microbiome transmission was considerable and stable during infancy (around 50% of the same strains among shared species (strain-sharing rate)) and remained detectable at older ages. By contrast, the transmission of the oral microbiome occurred largely horizontally and was enhanced by the duration of cohabitation. There was substantial strain sharing among cohabiting individuals, with 12% and 32% median strain-sharing rates for the gut and oral microbiomes, and time since cohabitation affected strain sharing more than age or genetics did. Bacterial strain sharing additionally recapitulated host population structures better than species-level profiles did. Finally, distinct taxa appeared as efficient spreaders across transmission modes and were associated with different predicted bacterial phenotypes linked with out-of-host survival capabilities. The extent of microorganism transmission that we describe underscores its relevance in human microbiome studies5, especially those on non-infectious, microbiome-associated diseases.

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Human gut bifidobacteria inhibit the growth of the opportunistic fungal pathogenCandida albicans

Ricci

Mackie

Donachie

et al. 2022

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The human gut microbiota protects the host from invading pathogens and the overgrowth of indigenous opportunistic species via a process called colonisation resistance. Here, we investigated the antagonistic activity of human gut bacteria towards Candida albicans, an opportunistic fungal pathogen that can cause severe infections in susceptible individuals. Co-culture batch incubations of C. albicans in the presence of faecal microbiota from six healthy individuals revealed varying levels of inhibitory activity against C. albicans. 16S rRNA gene amplicon profiling of these faecal co-culture bacterial communities showed that the Bifidobacteriaceae family, and Bifidobacterium adolescentis in particular, were most correlated with antagonistic activity against C. albicans. Follow up mechanistic studies performed under anaerobic conditions confirmed that culture supernatants of Bifidobacterium species, particularly B. adolescentis, inhibited C. albicans in vitro. Fermentation acids, including acetate and lactate, present in the bifidobacterial supernatants were important contributors to inhibitory activity. However, increasing the pH of both bacterial supernatants and mixtures of fermentation acids reduced their anti-Candida effects, indicating a combinatorial effect of prevailing pH and fermentation acids. This work therefore demonstrates potential mechanisms underpinning gut microbiome-mediated colonisation resistance against C. albicans, and identifies particularly inhibitory components such as bifidobacteria and fermentation acids as targets for further study.

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History of Kiwifruit Bacterial Diseases in Italy

Balestra¹,

Renzi²,

Ricci³

et al. 2011

Acta Hortic.

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Impact of changes at the Candida albicans cell surface upon immunogenicity and colonisation in the gastrointestinal tract

et al. 2022

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Liviana Ricci

The person-to-person transmission landscape of the gut and oral microbiomes

Human gut bifidobacteria inhibit the growth of the opportunistic fungal pathogenCandida albicans

History of Kiwifruit Bacterial Diseases in Italy

Impact of changes at the Candida albicans cell surface upon immunogenicity and colonisation in the gastrointestinal tract

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