Abstract
Stress triggers cellular and systemic reactions in organisms to restore homeostasis. For instance, metabolic stress, experienced during starvation, elicits a hormonal response that reallocates resources to enable food search and readjustment of physiology. Mammalian gonadotropin-releasing hormone (GnRH) and its insect orthologue, adipokinetic hormone (AKH), are known for their roles in modulating stress-related behaviour. Here we show that corazonin (Crz), a peptide homologous to AKH/GnRH, also alters stress physiology in Drosophila. The Crz receptor (CrzR) is expressed in salivary glands and adipocytes of the liver-like fat body, and CrzR knockdown targeted simultaneously to both these tissues increases the fly's resistance to starvation, desiccation and oxidative stress, reduces feeding, alters expression of transcripts of Drosophila insulin-like peptides (DILPs), and affects gene expression in the fat body. Furthermore, in starved flies, CrzR-knockdown increases circulating and stored carbohydrates. Thus, our findings indicate that elevated systemic Crz signalling during stress coordinates increased food intake and diminished energy stores to regain metabolic homeostasis. Our study suggests that an ancient stress-peptide in Urbilateria evolved to give rise to present-day GnRH, AKH and Crz signalling systems.
Highlights
Stress can be evoked by a multitude of different environmental factors and animals have evolved an arsenal of mechanisms to respond to such aversive stimuli, both systemically and at the cellular level [1,2,3]
FlyAtlas transcript expression data suggest that the Crz receptor (CrzR) (CG10698) is highly expressed in the adult fat body, salivary glands and dorsal vessel [36], and a previous study substantiated the adult-specific expression in the fat body by using a CrzR-Gal4 [35]
Our study shows that the CrzR, the insect homologue of gonadotropin-releasing hormone (GnRH) receptors, is expressed in the fat body and salivary glands of adult flies
Summary
Stress can be evoked by a multitude of different environmental factors and animals have evolved an arsenal of mechanisms to respond to such aversive stimuli, both systemically and at the cellular level [1,2,3]. Drosophila insulin-like peptides (DILPs) and adipokinetic hormone (AKH), an insect orthologue of mammalian gonadotropin-releasing hormone (GnRH), play important roles in various stress responses and affect longevity [2,18,19,20,21]. Corazonin (Crz) is another Drosophila peptide ancestrally related to AKH/GnRH, which has been proposed as a stress-induced hormone based on various actions revealed in several insect species [22,23,24,25,26,27], but mechanisms of Crz function in stress are not known. GnRH is known to mediate metabolic and stress-related effects on reproduction [10,11,30,31], and it may be that an ancestral role of Crz, AKH and GnRH in metabolism and stress has
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