Physiological responses to honeybee venom poisoning in a model organism, the firebug Pyrrhocoris apterus

In this study, the biochemical and physiological features of the firebug Pyrrhocoris apterus were investigated to understand the impact of the honeybee Apis mellifera venom on them using physiological methods (mortality, total level of metabolism), biochemical methods (ELISA, mass spectrometry, poly...

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Published in:Comparative biochemistry and physiology. Toxicology & pharmacology 2023-08, Vol.270, p.109657-109657, Article 109657
Main Authors: Ondřichová, Anna, Štěrbová, Helena, Danihlík, Jiří, Jemelková, Jana, Hejníková, Markéta, Šerý, Michal, Kodrík, Dalibor
Format: Article
Language:English
Subjects:
Adipokinetic hormone
Animals
Bee venom
Bee Venoms - metabolism
Female
Heteroptera - metabolism
Histamine
Histamine - pharmacology
Insect Hormones - pharmacology
Male
Metabolism
Pyrrolidonecarboxylic Acid - metabolism
Stress
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Summary:In this study, the biochemical and physiological features of the firebug Pyrrhocoris apterus were investigated to understand the impact of the honeybee Apis mellifera venom on them using physiological methods (mortality, total level of metabolism), biochemical methods (ELISA, mass spectrometry, polyacrylamide gel electrophoresis, spectrophotometry) and molecular methods (real-time PCR). Together, the obtained findings suggest that venom injection increased the level of adipokinetic hormone (AKH) in the CNS of P. apterus, indicating that this hormone plays a key role in activating defence responses. Furthermore, histamine levels in the gut increased significantly after envenomation and did not seem to be modulated by AKH. In contrast, histamine levels in the haemolymph increased after treatment with AKH and AKH + venom. In addition, we found that vitellogenin levels in haemolymph decreased in both males and females after venom application. Lipids, which are the main energy metabolites used by Pyrrhocoris, were significantly exhausted from the haemolymph after the administration of venom and the co-application with AKH reversed this effect. However, we did not find much influence on the effect of digestive enzymes after the injection of venom. Our research has highlighted the noticeable effect of bee venom on P. apterus' body and provided new insights into the role of AKH in controlling defensive responses. However, it is also likely that there will be alternative defence mechanisms. [Display omitted] •The level of AKH in the CNS is increased by honey bee venom.•The level of histamine in the gut is increased by honey bee venom.•Vitellogenin levels in male and female haemolymph are decreased by honey bee venom.•Adipokinetic hormone contributes to some defensive responses to bee venom.
ISSN:1532-0456
1878-1659
DOI:10.1016/j.cbpc.2023.109657