Department of Biology, Cell and Neurobiology, University of Copenhagen, Copenhagen, Denmark.
Curr Top Dev Biol. 2013;103:1-33. doi: 10.1016/B978-0-12-385979-2.00001-0.
The transition from juvenile to adult is a fundamental process that allows animals to allocate resource toward reproduction after completing a certain amount of growth. In insects, growth to a species-specific target size induces pulses of the steroid hormone ecdysone that triggers metamorphosis and reproductive maturation. The past few years have seen significant progress in understanding the interplay of mechanisms that coordinate timing of ecdysone production and release. These studies show that the neuroendocrine system monitors complex size-related and nutritional signals, as well as external cues, to time production and release of ecdysone. Based on results discussed here, we suggest that developmental progression to adulthood is controlled by checkpoints that regulate the genetic timing program enabling it to adapt to different environmental conditions. These checkpoints utilize a number of signaling pathways to modulate ecdysone production in the prothoracic gland. Release of ecdysone activates an autonomous cascade of both feedforward and feedback signals that determine the duration of the ecdysone pulse at each developmental transitions. Conservation of the genetic mechanisms that coordinate the juvenile-adult transition suggests that insights from the fruit fly Drosophila will provide a framework for future investigation of developmental timing in metazoans.
从幼年到成年的转变是一个基本过程,它允许动物在完成一定量的生长后,将资源分配到繁殖上。在昆虫中,生长到特定物种的目标大小会引发类固醇激素蜕皮激素的脉冲,从而引发变态和生殖成熟。在过去的几年里,人们在理解协调蜕皮激素产生和释放时机的机制相互作用方面取得了重大进展。这些研究表明,神经内分泌系统监测复杂的与大小相关的和营养信号,以及外部线索,以定时产生和释放蜕皮激素。基于这里讨论的结果,我们认为,向成年的发育进展受检查点控制,这些检查点调节使遗传定时程序能够适应不同环境条件的基因定时程序。这些检查点利用许多信号通路来调节前胸腺中的蜕皮激素产生。蜕皮激素的释放激活了一个自动级联的前馈和反馈信号,决定了每个发育转变时蜕皮激素脉冲的持续时间。协调幼年到成年转变的遗传机制的保守性表明,来自果蝇的见解将为后生动物发育定时的未来研究提供一个框架。