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Analyses of ecdysteroid transporters in the fat body of Tribolium castaneum.

Benedikt WellmeyerAnna Christina BöhringerJanin RösnerHans Merzendorfer
Published in: Insect molecular biology (2023)
The control of insect moulting and metamorphosis involves ecdysteroids that orchestrate the execution of developmental genetic programs by binding to dimeric hormone receptors consisting of the ecdysone receptor (EcR) and ultraspiracle (USP). In insects, the main ecdysteroids comprise ecdysone (E), which is synthesized in the prothoracic gland and secreted into the haemolymph, and 20-hydroxyecdysone (20E), which is considered the active form by binding to the nuclear receptor of the target cell. While biosynthesis of ecdysteroids has been studied in detail in different insects, the transport systems involved in guiding these steroid hormones across cellular membranes have just recently begun to be studied. By analysing RNAi phenotypes in the red flour beetle, Tribolium castaneum, we have identified three transporter genes, TcABCG-8A, TcABCG-4D and TcOATP4-C1, whose silencing results in phenotypes similar to that observed when the ecdysone receptor gene TcEcRA is silenced, that is, abortive moulting and abnormal development of adult compound eyes during the larval stage. The genes of all three transporters are expressed at higher levels in the larval fat body of T. castaneum. We analysed potential functions of these transporters by combining RNAi and mass spectrometry. However, the analysis of gene functions is challenged by mutual RNAi effects indicating interdependent gene regulation. Based on our findings, we propose that TcABCG-8A, TcABCG-4D and TcOATP4-C1 participate in the ecdysteroid transport in fat body cells, which are involved in E → 20E conversion catalysed by the P450 enzyme TcShade.
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