Abstract
BackgroundBursicon is a heterodimer neuropeptide composed of two cystine knot proteins, bursicon α (burs α) and bursicon β (burs β), that elicits cuticle tanning (melanization and sclerotization) through the Drosophila leucine-rich repeats-containing G protein-coupled receptor 2 (DLGR2). Recent studies show that both bursicon subunits also form homodimers. However, biological functions of the homodimers have remained unknown until now.Methodology/Principal FindingsIn this report, we show in Drosophila melanogaster that both bursicon homodimers induced expression of genes encoding antimicrobial peptides (AMPs) in neck-ligated adults following recombinant homodimer injection and in larvae fat body after incubation with recombinant homodimers. These AMP genes were also up-regulated in 24 h old unligated flies (when the endogenous bursicon level is low) after injection of recombinant homodimers. Up-regulation of AMP genes by the homodimers was accompanied by reduced bacterial populations in fly assay preparations. The induction of AMP expression is via activation of the NF-κB transcription factor Relish in the immune deficiency (Imd) pathway. The influence of bursicon homodimers on immune function does not appear to act through the heterodimer receptor DLGR2, i.e. novel receptors exist for the homodimers.Conclusions/SignificanceOur results reveal a mechanism of CNS-regulated prophylactic innate immunity during molting via induced expression of genes encoding AMPs and genes of the Turandot family. Turandot genes are also up-regulated by a broader range of extreme insults. From these data we infer that CNS-generated bursicon homodimers mediate innate prophylactic immunity to both stress and infection during the vulnerable molting cycle.
Highlights
Insect growth and development involve a series of molts during which the old cuticle is digested while a new cuticle is formed and the remnant discarded [1]
Because the Drosophila bursicon heterodimer acts through the Gprotein coupled receptor Drosophila leucine-rich repeatscontaining G protein-coupled receptor 2 (DLGR2) [4,5,6,7], we investigated whether the bursicon homodimer proteins induce expression of immunity-conferring genes through DLGR2, encoded by the rk gene [6,7]
The data in this paper support our hypothesis that the CNS influences innate immunity via secretion of a neurohormone and expands the biological roles of bursicon beyond cuticle tanning and wing expansion
Summary
Insect growth and development involve a series of molts during which the old cuticle is digested while a new cuticle is formed and the remnant discarded (ecdysis) [1]. In Drosophila the neurohormone bursicon, composed of two heterodimer cystine knot proteins, bursicon a (burs a) and bursicon b (burs b), mediates the tanning process in newly eclosed adults [4,5] via the Drosophila leucine-rich repeats-containing Gprotein-coupled receptor (DLGR2), encoded by rickets (rk) [6,7]. Bursicon is a heterodimer neuropeptide composed of two cystine knot proteins, bursicon a (burs a) and bursicon b (burs b), that elicits cuticle tanning (melanization and sclerotization) through the Drosophila leucine-rich repeatscontaining G protein-coupled receptor 2 (DLGR2). Biological functions of the homodimers have remained unknown until now
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
