Hormonal control of growth and differentiation of insect tissues cultured in vitro

Abstract

This paper reviews the effects of insect hormones on lepidopteran imaginal discs cultured in vitro.β-ecdysone stimulated both evagination and cuticle deposition of wing discs ofPlodia interpunctella (Hübner). However, evagination required a shorter exposure to ecdysone than did cuticle deposition. Cuticle deposition was obtained under the following conditions: (a) a 24-hr pulse ofβ-ecdysone (0.5–5.0µg/ml); (b) continuous treatment with 0.2µg/mlβ-ecdysone; or (c) continuous treatment with 0.5 to 50.0µg/mlβ-ecdysone in medium conditioned with larval fat body. Investigations of some biochemical effects of ecdysone showed that RNA and protein synthesis was required for evagination and cuticle deposition. In particular, studies with actinomycin D and cycloheximide (at nontoxic levels) showed that RNA and protein synthesis during the ecdysone-dependent period was essential for subsequent development. These findings support the hypothesis that stimulation of macromolecular synthesis is fundamental to the action of ecdysone on imaginal discs. The influence of beta-ecdysone on chitin synthesis was also examined.β-ecdysone stimulated uptake and incorporation of tritiated-glucosamine by culturedP. interpunctella wing discs. Addition of hexosamines to the culture medium had no influence on ecdysone-induced cuticle deposition, but inhibition of glucose-uptake by cytochalasin B prevented the formation of cuticle. The action of ecdysone on particular enzymes in the chitin pathway remains to be elucidated.