Skip to main content Deutsch

Hormonal control of appetite in ants identified

Evolutive function of the “cuddle hormone” oxytocin decrypted
All News

(Vienna, 26-06-2018) Ants and humans have a lot in common at the level of genes and proteins: Numerous studies have shown that ants also possess the genetic basis of a hormone system based on the neuropeptides oxytocin and vasopressin, which, for instance, contribute to the formation of social bonds and the regulation of the water homeostasis in humans. An Austrian research team led by Christian Gruber from the Institute of Pharmacology at MedUni Vienna has now elucidated the function of this signalling system in ants. The scientists demonstrate that the oxytocin-vasopressin hormone system regulates foraging, locomotor activity and metabolism in ants. 

The central result of the study, which has now been published in the renowned FASEB Journal: When the researchers “switched off” the release of the oxytocin-like neuropeptide inotocin to prevent signal transduction, the ants became more active, showed higher walking activity and started looking for food. At the same time, the expression of certain metabolic genes was altered. Conversely, one could expect that with an increased oxytocin level, the activity and foraging of ants would decrease. “This notion has been studied in mammals: Mice and rats that received intranasal oxytocin administrations exhibited a long-term weight loss," reports Gruber. “Oxytocin also suppresses calorie intake in men based on a study that has recently been published – and now we may have discovered the evolutionary function of this hormone system and can try to elucidate its mechanism in detail”.

Exploring 600 million years of evolution
It is fascinating that this hormone system and oxytocin-vasopressin signalling, in certain aspects, has not changed over the past 600 million years. Oxytocin- and vasopressin-like neuropeptides and their related receptors are widespread among the many thousands of insect species. The advantages of these evolutionary similarities between humans and insects could now be used biomedically. “Along the evolution of this signalling system, we were able to define biochemical details of the oxytocin-vasopressin-like hormone system in ants. It is an important discovery for biology, and there is a lot to be learned for biomedical research in the future,” explains Gruber.

Recent findings in this scientific field could eventually lead to the development of an anti-obesity drug. In any case, it is thought that oxytocin influences food preference in humans through its effect on the hypothalamus and at the same time it appears to increase fat metabolism. However, there is currently no such clinical application or specific medication available. In addition, it must be clarified whether this effect is gender-specific and whether oxytocin administration is generally suitable for long-term weight loss in humans.

The study was carried out as cooperation of MedUni Vienna, IST (Institute of Science and Technology Austria), University of Vienna and Ludwig-Boltzmann Institute for Cancer Research and has been funded by the WWTF project LS13-017 (Vienna Science and Technology Fund), led by Christian Gruber (MedUni Vienna) and Co-PI Sylvia Cremer (IST Austria). 

Service: FASEB Journal
“Oxytocin-like signaling in ants influences metabolic gene expression and locomotor activity.” Zita Liutkevičiūtė, Esther Gil-Mansilla, Thomas Eder, Barbara Casillas-Pérez, Maria Giulia Di Giglio, Edin Muratspahic, Florian Grebien, Thomas Rattei, Markus Muttenthaler, Sylvia Cremer and Christian W. Gruber. doi: 10.1096/fj.201800443.
Link: https://www.fasebj.org/doi/10.1096/fj.201800443