雄特异性 P1 神经元对果蝇睡眠、求偶和进食行为的层级控制。

Hierarchical Control of Drosophila Sleep, Courtship, and Feeding Behaviors by Male-Specific P1 Neurons.

机构信息

The Key Laboratory of Developmental Genes and Human Disease, Institute of Life Sciences, Southeast University, Nanjing, 210096, China.

Co-innovation Center of Neuroregeneration, Nantong University, Nantong, 226019, China.

出版信息

Neurosci Bull. 2018 Dec;34(6):1105-1110. doi: 10.1007/s12264-018-0281-z. Epub 2018 Sep 4.

DOI:10.1007/s12264-018-0281-z

PMID:30182322

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6246841/

Abstract

Animals choose among sleep, courtship, and feeding behaviors based on the integration of both external sensory cues and internal states; such choices are essential for survival and reproduction. These competing behaviors are closely related and controlled by distinct neural circuits, but whether they are also regulated by shared neural nodes is unclear. Here, we investigated how a set of male-specific P1 neurons controls sleep, courtship, and feeding behaviors in Drosophila males. We found that mild activation of P1 neurons was sufficient to affect sleep, but not courtship or feeding, while stronger activation of P1 neurons labeled by four out of five independent drivers induced courtship, but only the driver that targeted the largest number of P1 neurons affected feeding. These results reveal a common neural node that affects sleep, courtship, and feeding in a threshold-dependent manner, and provide insights into how competing behaviors can be regulated by a shared neural node.

摘要

动物根据外部感觉线索和内部状态的整合来选择睡眠、求偶和进食行为；这些选择对于生存和繁殖至关重要。这些竞争行为密切相关，并受到不同的神经回路控制，但它们是否也受到共享神经节点的调节尚不清楚。在这里，我们研究了一组特定于雄性的 P1 神经元如何控制雄性果蝇的睡眠、求偶和进食行为。我们发现，轻度激活 P1 神经元足以影响睡眠，但不会影响求偶或进食，而更强的激活由五个独立驱动程序中的四个标记的 P1 神经元会诱导求偶，但只有针对 P1 神经元数量最多的驱动程序会影响进食。这些结果揭示了一个共同的神经节点，以依赖于阈值的方式影响睡眠、求偶和进食，并为竞争行为如何受到共享神经节点的调节提供了见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4d6d/6246841/27ea272f966a/12264_2018_281_Fig1_HTML.jpg

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雄特异性 P1 神经元对果蝇睡眠、求偶和进食行为的层级控制。

Hierarchical Control of Drosophila Sleep, Courtship, and Feeding Behaviors by Male-Specific P1 Neurons.

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