Downregulation of the cAMP signal transduction cascade in the prothoracic glands is responsible for the fenoxycarb-mediated induction of permanent 5th instar larvae in Bombyx mori

Fenoxycarb application at 48 h (day 2) of the 5th instar of Bombyx mori induced permanent larvae with prothoracic glands (PGs) exhibiting weak ecdysteroidogenic activity. Although glands from control and fenoxycarb-treated larvae exhibited similar responses to dibutyl cAMP and forskolin on day 2, forskolin could not stimulate ecdysteroid secretion from PGs of fenoxycarb-treated larvae on day 3. Glands from control larvae incubated with cholera toxin (CTX) on day 3 had increased cAMP content and enhanced ecdysteroid secretion. Cholera toxin did not stimulate ecdysteroid secretion and marginally increased cAMP content in day 3 PGs of fenoxycarb-treated larvae. After application of fenoxycarb on day 2, crude brain extracts (cBRAIN) could not increase the glandular cAMP content throughout the rest of the 5th instar of the treated larvae. Fenoxycarb did not affect the basal or cBRAIN-stimulated cAMP accumulation in control PGs on day 2 and day 3 in vitro. Application of fenoxycarb on day 2 did not affect the recombinant PTTH (rPTTH)-stimulated ecdysteroid secretion on day 3, but reduced the cBRAIN-stimulated ecdysteroid secretion on day 3 to levels similar to that of rPTTH. The combined results suggest that the cAMP signalling cascade in the PGs of B. mori becomes nonfunctional after fenoxycarb application on day 2 of the 5th instar.