Sleep is a fascinating phenomenon and one of the least understood mysteries of biology. It is universal among the animal kingdom and most species devote a large part of their day to sleep, despite the risks of lowering their defences against predators or not engaging in more...
Sleep is a fascinating phenomenon and one of the least understood mysteries of biology. It is universal among the animal kingdom and most species devote a large part of their day to sleep, despite the risks of lowering their defences against predators or not engaging in more productive activities such as foraging or mating.
In many animals, social interaction is a powerful modulator of sleep quality and quantity. In nature, animals are continuously exposed to a diverse variety of stimuli, and interactions with conspecifics represent a particularly relevant set of them. For Drosophila males, interaction with females is key to ensure reproduction, while interaction with other males can create antagonistic fights to compete for sexual partners, food or shelter.
Through this project, I propose to investigate if and how social interactions affect sleep need and sleep quality. Employing fruit flies it has been previously shown that male-male interaction during the night builds up sleep pressure, observable in the next day as marked increase in sleep. Recovery of sleep after sleep deprivation is also called “sleep reboundâ€, and in all species it is thought to be 1) at the basis of sleep homeostasis and 2) positively correlate with sleep deprivation. The longer an animal stay awake, the higher the sleep pressure and following rebound. Also, it has been described that pervious sleep experience modulates agonistic behaviours between males. Thus, bidirectional interplay between social interaction and sleep appears as a promising framework to address a main goal of modern neuroscience, understand how sleep is regulated and which sleep functions are.
I intend to use new developed behavioural paradigms and software that improve sleep analysis in combination with refined genetic tools available in Drosophila to extend our knowledge on the interaction between phylogenetically conserved behaviours, social interactions and sleep, which have a high impact on reproductive fitness.
The worked performed along the project is consolidated in four publications:
-“Most sleep does not serve a vital function. Evidence from Drosophila melanogaster†Quentin Geissmann*, Esteban J. Beckwith* and Giorgio F. Gilestro. Science Advances. 2019. DOI: 10.1126/sciadv.aau9253.
-“Rethomics: an R framework to analyse high-throughput behavioural dataâ€. Quentin Geissmann, Luis Garcia Rodriguez, Esteban J. Beckwith and Giorgio F. Gilestro. PLoS One. 2019. DOI: 10.1371/journal.pone.0209331.
-“Ethoscopes: an open platform for high-throughput ethomicsâ€. Quentin Geissmann, Luis Garcia Rodriguez, Esteban J. Beckwith, Alice S. French, Arian R. Jamasb and Giorgio F. Gilestro. PloS Biol. 2017. DOI: 10.1371/journal.pbio.2003026.
-“Regulation of sleep homeostasis by sexual arousalâ€. Esteban J. Beckwith, Quentin Geissmann, Alice S. French and Giorgio F. Gilestro. eLife. 2017. DOI: 10.7554/eLife.27445.
The project is finished, the results are described in the previous section.
More info: https://lab.gilest.ro/.