Ana Patrícia Francisco scite author profile

Choosing the right nutrients to consume is essential to health and wellbeing across species. However, the factors that influence these decisions are poorly understood. This is particularly true for dietary proteins, which are important determinants of lifespan and reproduction. We show that in Drosophila melanogaster, essential amino acids (eAAs) and the concerted action of the commensal bacteria Acetobacter pomorum and Lactobacilli are critical modulators of food choice. Using a chemically defined diet, we show that the absence of any single eAA from the diet is sufficient to elicit specific appetites for amino acid (AA)-rich food. Furthermore, commensal bacteria buffer the animal from the lack of dietary eAAs: both increased yeast appetite and decreased reproduction induced by eAA deprivation are rescued by the presence of commensals. Surprisingly, these effects do not seem to be due to changes in AA titers, suggesting that gut bacteria act through a different mechanism to change behavior and reproduction. Thus, eAAs and commensal bacteria are potent modulators of feeding decisions and reproductive output. This demonstrates how the interaction of specific nutrients with the microbiome can shape behavioral decisions and life history traits.

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Metabolic cross-feeding in imbalanced diets allows gut microbes to improve reproduction and alter host behaviour

Henriques

et al. 2020

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The impact of commensal bacteria on the host arises from complex microbial-diet-host interactions. Mapping metabolic interactions in gut microbial communities is therefore key to understand how the microbiome influences the host. Here we use an interdisciplinary approach including isotope-resolved metabolomics to show that in Drosophila melanogaster, Acetobacter pomorum (Ap) and Lactobacillus plantarum (Lp) a syntrophic relationship is established to overcome detrimental host diets and identify Ap as the bacterium altering the host's feeding decisions. Specifically, we show that Ap uses the lactate produced by Lp to supply amino acids that are essential to Lp, allowing it to grow in imbalanced diets. Lactate is also necessary and sufficient for Ap to alter the fly's protein appetite. Our data show that gut bacterial communities use metabolic interactions to become resilient to detrimental host diets. These interactions also ensure the constant flow of metabolites used by the microbiome to alter reproduction and host behaviour.

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Assessing the molecular basis of transferable quinolone resistance in Escherichia coli and Salmonella spp. from food-producing animals and food products

Jones-Dias

Manageiro

Francisco

et al. 2013

Veterinary Microbiology

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Nutrient homeostasis — translating internal states to behavior

Münch

Ezra-Nevo

Francisco

et al. 2020

Current Opinion in Neurobiology

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Metabolic cross-feeding allows a gut microbial community to overcome detrimental diets and alter host behaviour

Henriques

Serra

Francisco

et al. 2019

Preprint

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The impact of commensal bacteria on the host arises from complex microbial-diet-host interactions. Mapping metabolic interactions in gut microbial communities is therefore key to understand how the microbiome influences the host. Here we use an interdisciplinary approach including isotope-resolved metabolomics to show that in Drosophila melanogaster, Acetobacter pomorum (Ap) and Lactobacillus plantarum (Lp) establish a syntrophic relationship to overcome detrimental host diets and identify Ap as the bacterium altering the host's feeding decisions. Specifically, we show that Lp generates lactate which is used by Ap to produce and provide amino acids that are essential to Lp allowing it to grow in imbalanced diets. Lactate is also necessary and sufficient for Ap to alter the fly's protein appetite. Our data show that gut bacterial communities use metabolic interactions to become resilient to detrimental host diets and to ensure the constant flow of metabolites used by effector bacteria to alter host behaviour.Drosophila, feeding behaviour, microbiome, commensal bacteria, nutrition, bacterial communities, essential amino acids, syntrophy, metabolic crossfeeding, Acetobacteracaea, Lactobacilli Correspondence: carlos.ribeiro@neuro.fchampalimaud.org

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