Expansion and application of dye tracers for measuring solid food intake and food preference in Drosophila

Brandon C Shell,Scott Pletcher,Yuan Luo,Mike Grotewiel

doi:10.1038/s41598-021-99483-7

Brandon C Shell, Scott Pletcher + Show 2 more

Open Access

https://doi.org/10.1038/s41598-021-99483-7

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Abstract

The Drosophila model is used to investigate the effects of diet on physiology as well as the effects of genetic pathways, neural systems and environment on feeding behavior. We previously showed that Blue 1 works well as a dye tracer to track consumption of agar-based media in Drosophila in a method called Con-Ex. Here, we describe Orange 4 as a novel dye for use in Con-Ex studies that expands the utility of this method. Con-Ex experiments using Orange 4 detect the predicted effects of starvation, mating status, strain, and sex on feeding behavior in flies. Orange 4 is consumed and excreted into vials linearly with time in Con-Ex experiments, the number of replicates required to detect differences between groups when using Orange 4 is comparable to that for Blue 1, and excretion of the dye reflects the volume of consumed dye. In food preference studies using Orange 4 and Blue 1 as a dye pair, flies decreased their intake of food laced with the aversive tastants caffeine and NaCl as determined using Con-Ex or a more recently described modification called EX-Q. Our results indicate that Orange 4 is suitable for Con-Ex experiments, has comparable utility to Blue 1 in Con-Ex studies, and can be paired with Blue 1 to assess food preference via both Con-Ex and EX-Q.

Highlights

Diet and dietary intake have long been associated with several chronic disease states including obesity, diabetes, heart disease, stroke and cancer
We developed Con-Ex as a method using Blue 1 as a dye tracer for solid food medium in which excreted dye reflects the volume of food medium flies have c onsumed[14]
Methods exist for assessing food preference when flies are presented with solid, agar-based media labeled with different dyes (e.g., r eferences18,19), solid media labeled with a single radioactive tracer[20], solid media tracked by oligonucleotide ingestion[21], or liquid media via CAFE3

Summary

Introduction

Diet and dietary intake have long been associated with several chronic disease states including obesity, diabetes, heart disease, stroke and cancer. We previously described Blue 1 as a dye suitable for use in Consumption-Excretion (Con-Ex) studies for monitoring intake of agar-based food media in Drosophila[14].

Results

Conclusion