Abstract
Chemosensory signals allow vertebrates and invertebrates not only to orient in its environment toward energy-rich food sources to maintain nutrition but also to avoid unpleasant or even poisonous substrates. Ethanol is a substance found in the natural environment of Drosophila melanogaster. Accordingly, D. melanogaster has evolved specific sensory systems, physiological adaptations, and associated behaviors at its larval and adult stage to perceive and process ethanol. To systematically analyze how D. melanogaster larvae respond to naturally occurring ethanol, we examined ethanol-induced behavior in great detail by reevaluating existing approaches and comparing them with new experiments. Using behavioral assays, we confirm that larvae are attracted to different concentrations of ethanol in their environment. This behavior is controlled by olfactory and other environmental cues. It is independent of previous exposure to ethanol in their food. Moreover, moderate, naturally occurring ethanol concentration of 4% results in increased larval fitness. On the contrary, higher concentrations of 10% and 20% ethanol, which rarely or never appear in nature, increase larval mortality. Finally, ethanol also serves as a positive teaching signal in learning and memory and updates valence associated with simultaneously processed odor information. Since information on how larvae perceive and process ethanol at the genetic and neuronal level is limited, the establishment of standardized assays described here is an important step towards their discovery.
Highlights
Chemosensory signals allow vertebrates and invertebrates to orient in its environment toward energy-rich food sources to maintain nutrition and to avoid unpleasant or even poisonous substrates
These results show that D. melanogaster larvae are attracted to ethanol in a concentration-dependent manner
Ethanol is an important stimulus in the environment of adult and larval D. melanogaster
Summary
Chemosensory signals allow vertebrates and invertebrates to orient in its environment toward energy-rich food sources to maintain nutrition and to avoid unpleasant or even poisonous substrates. We confirm that larvae are attracted to different concentrations of ethanol in their environment. This behavior is controlled by olfactory and other environmental cues. Important insights into principals of chemosensory perception and information processing are provided by genetically modifiable organisms such as the fruit fly D. melanogaster[2,3,4,5] This includes the larval central nervous system with its simpler structure consisting of only about 10,000 neurons. Our results support previous studies suggesting that the odorant ethanol is attractive to larvae in a dose dependent manner at moderate naturally occurring concentrations and has a positive effect on larval survival. Ethanol can be used in associative olfactory learning paradigms to establish appetitive memories as it provides a positive teaching signal
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