Gut Bacteria Mediate Nutrient Availability in
            <i>Drosophila</i>
            Diets

Lesperance, Danielle N. A.; Broderick, Nichole A.

doi:10.1128/aem.01401-20

Cited by 24 publications

(31 citation statements)

References 62 publications

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“…Specifically, our study provides evidence that variation in the gut microbiota alters host nutrient availability and can yield significant differences in the diet selection of conventionalized mice in just 11 days, likely through differential bacterial metabolism and downstream availability of EAAs, especially tryptophan. These findings are largely consistent with recent mechanistic work in model systems 9,38 , but address the natural variation in microbial communities that exist among individuals and across species 11,12 .…”

Section: Introductionsupporting

confidence: 87%

The gut microbiome influences host diet selection behavior

Trevelline

Kohl

2020

Preprint

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AbstractDiet selection is a fundamental aspect of animal behavior with numerous ecological and evolutionary implications1. While the underlying mechanisms are complex, the availability of essential dietary nutrients can strongly influence diet selection2. The gut microbiome has been shown to metabolize many of these same nutrients3, leading to the untested hypothesis that intestinal microbiota may influence diet selection4,5. Here we show that germ-free mice colonized by gut microbiota from three rodent species with distinct foraging strategies differentially selected diets that varied in macronutrient composition. Specifically, we found that herbivore-conventionalized mice voluntarily selected a higher protein:carbohydrate ratio diet, while omnivore- and carnivore-conventionalized mice selected a lower P:C ratio diet. In support of the long-standing hypothesis that tryptophan – the essential amino acid precursor of serotonin – serves as a peripheral signal regulating diet selection6, bacterial genes involved in tryptophan metabolism and plasma tryptophan availability prior to the selection trial were significantly correlated with subsequent voluntary carbohydrate intake. Finally, herbivore-conventionalized mice exhibited larger intestinal compartments associated with microbial fermentation, broadly reflecting the intestinal morphology of their donor species. Together, these results demonstrate that gut microbiome can influence host diet selection and intestinal physiology by mediating the availability of essential amino acids, thereby revealing a novel mechanism by which the gut microbiota influence host foraging behavior.

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Section: Introductionsupporting

confidence: 87%

The gut microbiome influences host diet selection behavior

Trevelline

Kohl

2020

Preprint

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“…Innate immunity is a key regulator of microbial abundance in Drosophila ( 22 – 25 ). Upon acute bacterial infection, Drosophila immune responsive tissues (the fat body and hemocytes in systemic infection, and epithelium in local infection) sense microbe-associated molecular patterns (MAMPs) to activate signaling pathways.…”

Section: Introductionmentioning

confidence: 99%

Drosophila Antimicrobial Peptides and Lysozymes Regulate Gut Microbiota Composition and Abundance

Marra

Hanson

Kondo

et al. 2021

mBio

106

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This study advances current knowledge in the field of host-microbe interactions by demonstrating that the two families of immune effectors, antimicrobial peptides and lysozymes, actively regulate the gut microbiota composition and abundance. Consequences of the loss of these antimicrobial peptides and lysozymes are exacerbated during aging, and their loss contributes to increased microbiota abundance and shifted composition in old flies.

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“…Innate immunity is a key regulator of microbial abundance in Drosophila (22)(23)(24)(25). Upon acute bacterial infection, Drosophila immune responsive tissues (the fat body and hemocytes in systemic infection, and epithelium in local infection) sense microbe-associated molecular patterns (MAMPs) to activate signaling pathways.…”

Section: Introductionmentioning

confidence: 99%

Drosophilaantimicrobial peptides and lysozymes regulate gut microbiota composition and abundance

Marra

Hanson

Kondo

et al. 2021

Preprint

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The gut microbiota affects the physiology and metabolism of animals and its alteration can lead to diseases such as gut dysplasia or metabolic disorders. Several reports have shown that the immune system plays an important role in shaping both bacterial community composition and abundance in Drosophila, and that immune deficit, especially during aging, negatively affects microbiota richness and diversity. However, there has been little study at the effector level to demonstrate how immune pathways regulate the microbiota. A key set of Drosophila immune effectors are the antimicrobial peptides (AMPs), which confer defense upon systemic infection. AMPs and lysozymes, a group of digestive enzymes with antimicrobial properties, are expressed in the gut and are good candidates for microbiota regulation. Here, we take advantage of the model organism Drosophila melanogaster to investigate the role of AMPs and lysozymes in regulation of gut microbiota structure and diversity.Using flies lacking AMPs and newly generated lysozyme mutants, we colonized gnotobiotic flies with a defined set of commensal bacteria and analyzed changes in microbiota composition and abundance in vertical transmission and aging contexts through 16S rRNA gene amplicon sequencing. Our study shows that AMPs and, to a lesser extent, lysozymes are necessary to regulate the total and relative abundance of bacteria in the gut microbiota. We also decouple the direct function of AMPs from the IMD signaling pathway that regulates AMPs but also many other processes, more narrowly defining the role of these effectors in the microbial dysbiosis observed in IMD-deficient flies upon aging.ImportanceThis study advances current knowledge in the field of host-microbe interactions by demonstrating that the two families of immune effectors, antimicrobial peptides and lysozymes, actively regulate the gut microbiota composition and abundance. Consequences of the loss of these antimicrobial peptides and lysozymes are exacerbated during aging, and their loss contributes to increased microbiota abundance and shifted composition in old flies. This work shows that immune effectors, typically associated with resistance to pathogenic infections, also help shape the beneficial gut community, consistent with the idea that host-symbiont interactions use the same ‘language’ typically associated with pathogenesis.

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Gut Bacteria Mediate Nutrient Availability in Drosophila Diets

Cited by 24 publications

References 62 publications

The gut microbiome influences host diet selection behavior

The gut microbiome influences host diet selection behavior

Drosophila Antimicrobial Peptides and Lysozymes Regulate Gut Microbiota Composition and Abundance

Drosophilaantimicrobial peptides and lysozymes regulate gut microbiota composition and abundance

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