Given the current decline in honey bee populations, understanding their physiology, and how to maintain their health, is critical to preserve our ecosystem. As for humans and most animals, the gut microbiota was shown to play an important role in honey bee health. It degrades the pollen ingested by bees and release non-nutritive compounds in the gut lumen. Among them, flavonoids increase the expression and activity of P450 enzymes in the bee body, thereby promoting the detoxification of some pesticides and buffering their detrimental effects on bees’ survival. Recently, gut bacteria were shown to metabolize flavonoids and to favor the absorption of the resulting products through the host gut epithelium. The importance of this metabolism for the bioactivity of flavonoids was unknown.
The broad hypothesis of the granted project was that the decomposition of pollen compounds (e.g. flavonoids) by the gut microbiota would have a beneficial impact on honey bee health. In line with this hypothesis, the objectives of the project were to (i) highlight the importance of the gut microbiota for bee health, (ii) identify the flavonoids whose conversion by the gut microbiota may affect bee health, (iii) assess the impact of neonicotinoid pesticides on the gut microbiota composition, and (iv) understand the extent to which flavonoid-conversion by the gut microbiota may protect bees from health alterations by pesticides.