太平洋鲍鱼肌抑制肽信号系统的特征及其在幼体变态和产卵行为中的作用

IF 2.1 3区 医学 Q3 ENDOCRINOLOGY & METABOLISM
Sungwoo Park , Mi Ae Kim , Young Chang Sohn
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引用次数: 0

摘要

肌抑制肽(MIPs)影响多种生理功能,包括无脊椎动物的幼年激素信号传导、肌肉收缩、幼虫发育和繁殖。虽然在多种节肢动物和模式生物中,MIPs 是 MIP 和/或性肽受体(MIP/SPRs)的配体,但在软体动物中,MIP 信号系统尚未得到充分研究。在这项研究中,我们确定了太平洋鲍鱼 Haliotis discus hannai(Hdh)的 MIP 信号系统。与无脊椎动物的 MIPs 类似,我们在 Hdh-MIP 前体中发现了总共 8 个 MIPs 准复制体(命名为 Hdh-MIP1 至 Hdh-MIP8),除 Hdh-MIP2 外,均含有 WX5-7Wamide 基序。此外,我们还鉴定了功能性 Hdh-MIPR 的特征,它对除 Hdh-MIP2 以外的 Hdh-MIPs 都有反应,可能与 PKC/Ca2+ 和 PKA/cAMP 信号通路有关。Hdh-MIPs 可延缓幼虫的变态,但可增加产卵行为。这些结果表明,Hdh-MIP 信号系统有助于深入了解 MIP 在无脊椎动物中的独特功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterization of myoinhibitory peptide signaling system and its implication in larval metamorphosis and spawning behavior in Pacific abalone

Myoinhibitory peptides (MIPs) affect various physiological functions, including juvenile hormone signaling, muscle contraction, larval development, and reproduction in invertebrates. Although MIPs are ligands for MIP and/or sex peptide receptors (MIP/SPRs) in diverse arthropods and model organisms belonging to Lophotrochozoa, the MIP signaling system has not yet been fully investigated in mollusks. In this study, we identified the MIP signaling system in the Pacific abalone Haliotis discus hannai (Hdh). Similar to the invertebrate MIPs, a total of eight paracopies of MIPs (named Hdh-MIP1 to Hdh-MIP8), harboring a WX5-7Wamide motif, except for Hdh-MIP2, were found in the Hdh-MIP precursor. Furthermore, we characterized a functional Hdh-MIPR, which responded to the Hdh-MIPs, except for Hdh-MIP2, possibly linked with the PKC/Ca2+ and PKA/cAMP signaling pathways. Hdh-MIPs delayed larval metamorphosis but increased the spawning behavior. These results suggest that the Hdh-MIP signaling system provides insights into the unique function of MIP in invertebrates.

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来源期刊
General and comparative endocrinology
General and comparative endocrinology 医学-内分泌学与代谢
CiteScore
5.60
自引率
7.40%
发文量
120
审稿时长
2 months
期刊介绍: General and Comparative Endocrinology publishes articles concerned with the many complexities of vertebrate and invertebrate endocrine systems at the sub-molecular, molecular, cellular and organismal levels of analysis.
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