Autocrine regulation of ecdysone synthesis by [Beta]3-octopamine receptor in the prothoracic gland is essential for Drosophila metamorphosis

In Drosophila, pulsed production of the steroid hormone ecdysone plays a pivotal role in developmental transitions such as metamorphosis. Ecdysone production is regulated in the prothoracic gland (PG) by prothoracicotropic hormone (PTTH) and insulin-like peptides (Ilps). Here, we show that monoamine...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2015-02, Vol.112 (5), p.1452
Hauptverfasser:	Ohhara, Yuya, Shimada-Niwa, Yuko, Niwa, Ryusuke, Kayashima, Yasunari, Hayashi, Yoshiki, Akagi, Kazutaka, Ueda, Hitoshi, Yamakawa-Kobayashi, Kimiko, Kobayashi, Satoru
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Sprache:	eng
Schlagworte:	Biosynthesis Body size Gene expression Hormones Insects Metamorphosis Peptides Proteins
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creator	Ohhara, Yuya Shimada-Niwa, Yuko Niwa, Ryusuke Kayashima, Yasunari Hayashi, Yoshiki Akagi, Kazutaka Ueda, Hitoshi Yamakawa-Kobayashi, Kimiko Kobayashi, Satoru
description	In Drosophila, pulsed production of the steroid hormone ecdysone plays a pivotal role in developmental transitions such as metamorphosis. Ecdysone production is regulated in the prothoracic gland (PG) by prothoracicotropic hormone (PTTH) and insulin-like peptides (Ilps). Here, we show that monoaminergic autocrine regulation of ecdysone biosynthesis in the PG is essential for metamorphosis. PG-specific knockdown of a monoamine G protein-coupled receptor, β3-octopamine receptor (Octβ3R), resulted in arrested metamorphosis due to lack of ecdysone. Knockdown of tyramine biosynthesis genes expressed in the PG caused similar defects in ecdysone production and metamorphosis. Moreover, PTTH and Ilps signaling were impaired by Octβ3R knockdown in the PG, and activation of these signaling pathways rescued the defect in metamorphosis. Thus, monoaminergic autocrine signaling in the PG regulates ecdysone biogenesis in a coordinated fashion on activation by PTTH and Ilps. We propose that monoaminergic autocrine signaling acts downstream of a body size checkpoint that allows metamorphosis to occur when nutrients are sufficiently abundant.
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Ecdysone production is regulated in the prothoracic gland (PG) by prothoracicotropic hormone (PTTH) and insulin-like peptides (Ilps). Here, we show that monoaminergic autocrine regulation of ecdysone biosynthesis in the PG is essential for metamorphosis. PG-specific knockdown of a monoamine G protein-coupled receptor, β3-octopamine receptor (Octβ3R), resulted in arrested metamorphosis due to lack of ecdysone. Knockdown of tyramine biosynthesis genes expressed in the PG caused similar defects in ecdysone production and metamorphosis. Moreover, PTTH and Ilps signaling were impaired by Octβ3R knockdown in the PG, and activation of these signaling pathways rescued the defect in metamorphosis. Thus, monoaminergic autocrine signaling in the PG regulates ecdysone biogenesis in a coordinated fashion on activation by PTTH and Ilps. We propose that monoaminergic autocrine signaling acts downstream of a body size checkpoint that allows metamorphosis to occur when nutrients are sufficiently abundant.</abstract><cop>Washington</cop><pub>National Academy of Sciences</pub></addata></record>
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subjects	Biosynthesis Body size Gene expression Hormones Insects Metamorphosis Peptides Proteins
title	Autocrine regulation of ecdysone synthesis by [Beta]3-octopamine receptor in the prothoracic gland is essential for Drosophila metamorphosis
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