内质网钙传感器 STIM 通过调控神经肽来调控在营养限制条件下果蝇的发育。

ER-Ca2+ sensor STIM regulates neuropeptides required for development under nutrient restriction in Drosophila.

机构信息

National Centre For Biological Sciences, Tata Institute for Fundamental Research, Bangalore, India.

Department of Neurobiology and Genetics, Theodor-Boveri-Institute, Biocenter, Am Hubland, Würzburg, Germany.

出版信息

PLoS One. 2019 Jul 11;14(7):e0219719. doi: 10.1371/journal.pone.0219719. eCollection 2019.

DOI:10.1371/journal.pone.0219719

PMID:31295329

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6622525/

Abstract

Neuroendocrine cells communicate via neuropeptides to regulate behaviour and physiology. This study examines how STIM (Stromal Interacting Molecule), an ER-Ca2+ sensor required for Store-operated Ca2+ entry, regulates neuropeptides required for Drosophila development under nutrient restriction (NR). We find two STIM-regulated peptides, Corazonin and short Neuropeptide F, to be required for NR larvae to complete development. Further, a set of secretory DLP (Dorso lateral peptidergic) neurons which co-express both peptides was identified. Partial loss of dSTIM caused peptide accumulation in the DLPs, and reduced systemic Corazonin signalling. Upon NR, larval development correlated with increased peptide levels in the DLPs, which failed to occur when dSTIM was reduced. Comparison of systemic and cellular phenotypes associated with reduced dSTIM, with other cellular perturbations, along with genetic rescue experiments, suggested that dSTIM primarily compromises neuroendocrine function by interfering with neuropeptide release. Under chronic stimulation, dSTIM also appears to regulate neuropeptide synthesis.

摘要

神经内分泌细胞通过神经肽进行通讯，以调节行为和生理。本研究探讨了内质网钙传感器（STIM）如何调节果蝇在营养限制（NR）下发育所需的神经肽。我们发现两种 STIM 调节的肽，Corazonin 和短神经肽 F，是 NR 幼虫完成发育所必需的。此外，还鉴定了一组共表达这两种肽的分泌型 DLP（背侧外侧肽能神经元）。dSTIM 的部分缺失导致肽在 DLPs 中积累，并降低了全身 Corazonin 信号。在 NR 期间，与 dSTIM 减少相关的幼虫发育与 DLPs 中肽水平的增加相关，但当 dSTIM 减少时，这种情况并未发生。与其他细胞扰动相比，对与减少的 dSTIM 相关的系统和细胞表型进行比较，以及遗传挽救实验表明，dSTIM 主要通过干扰神经肽的释放来损害神经内分泌功能。在慢性刺激下，dSTIM 似乎也调节神经肽的合成。

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内质网钙传感器 STIM 通过调控神经肽来调控在营养限制条件下果蝇的发育。

ER-Ca2+ sensor STIM regulates neuropeptides required for development under nutrient restriction in Drosophila.

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