Myoglianin triggers the pre-metamorphosis stage in hemimetabolan insects

Abstract

ABSTRACTInsect metamorphosis is triggered by a decrease in juvenile hormone (JH) in the final juvenile instar. What induces this decline is therefore a very relevant question. Working with the cockroach Blattella germanica, we found that Myoglianin (Myo), a ligand in the TGF-β signaling pathway, is highly expressed in the corpora allata (CA, the JH producing glands) and prothoracic glands (PG, which produce ecdysone) during the penultimate nymphal instar (N5). In the CA, high Myo levels during N5 repress the expression of jhamt, a JH biosynthesis gene. In the PG, decreasing JH levels trigger gland degeneration, mediated by the factors Kr-h1, FTZ-F1, E93 and IAP1. Also in the PG, a peak of myo expression in N5 stimulates the expression of ecdysone biosynthesis genes, such as nvd, thus enhancing the production of the metamorphic ecdysone pulse in N6. The myo expression peak in N5 also represses cell proliferation, which can contribute to enhance ecdysone production. The data indicate that Myo triggers the pre-metamorphic nymphal instar in B. germanica, and possibly in other hemimetabolan insects.