J. Johnstone scite author profile

Carbohydrates, proteins and lipids are essential nutrients to all animals; however, closely related species, populations, and individuals can display dramatic variation in diet. Here we explore the variation in macronutrient tolerance in Drosophila melanogaster using the Drosophila genetic reference panel, a collection of ~200 strains derived from a single natural population. Our study demonstrates that D. melanogaster, often considered a “dietary generalist”, displays marked genetic variation in survival on different diets, notably on high-sugar diet. Our genetic analysis and functional validation identify several regulators of macronutrient tolerance, including CG10960/GLUT8, Pkn and Eip75B. We also demonstrate a role for the JNK pathway in sugar tolerance and de novo lipogenesis. Finally, we report a role for tailless, a conserved orphan nuclear hormone receptor, in regulating sugar metabolism via insulin-like peptide secretion and sugar-responsive CCHamide-2 expression. Our study provides support for the use of nutrigenomics in the development of personalized nutrition.

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Drosophila melanogaster females prioritise dietary sterols for producing high quality eggs

Zanco

Johnstone

et al. 2021

Preprint

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Limiting calories or specific nutrients without malnutrition, otherwise known as dietary restriction (DR), has been shown to extend lifespan across a broad range of taxa. Our recent findings in Drosophila melanogaster show that supplementing flies on macronutrient-rich diets with additional cholesterol can extend lifespan to the same extent as DR. Macronutrient-rich diets drive high levels of egg production and in doing so deplete the mothers of somatic sterols that are essential for survival. Thus, DR may be beneficial for lifespan because it reduces egg production which in turn reduces the mother's demand for sterols. If this is true, mothers must be prioritising their available sterols, whether from the diet or from their own bodies, to sustain high quality egg production. To test this, we measured the quality of eggs laid by mothers fed either cholesterol-sufficient or cholesterol-depleted diets. We found that even when the mother's diet was completely devoid of cholesterol, high quality egg production persisted. Furthermore, we show that sterol-supplemented flies with long lives continue to lay high quality eggs that give rise to healthy offspring. Thus, in our assays, long life does not require a fecundity cost.

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J. Johnstone

Genetic variation of macronutrient tolerance in Drosophila melanogaster

Drosophila melanogaster females prioritise dietary sterols for producing high quality eggs

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