广泛的缝隙连接神经网络调节厌恶行为。

An Extensive Gap Junction Neural Network Modulates Aversive Behavior.

作者信息

Sojka Savannah E, Ezak Meredith J, Polk Emily A, Bischer Andrew P, Neyland Katherine E, Wojtovich Andrew P, Ferkey Denise M

机构信息

Ferkey Laboratory, Department of Biological Sciences, University at Buffalo, The State University of New York, Buffalo, NY 14260, USA.

Wojtovich Laboratory, Department of Anesthesiology and Perioperative Medicine, University of Rochester Medical Center, Rochester, NY 14642, USA.

出版信息

Genes (Basel). 2025 Feb 23;16(3):260. doi: 10.3390/genes16030260.

DOI:10.3390/genes16030260

PMID:40149412

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11941935/

Abstract

BACKGROUND/OBJECTIVES: rely on sensory perception of environmental cues for survival in their native soil and compost habitats. These cues provide information about nutrient availability, mating partners, or predatory and hazardous beacons. In , the two bilaterally-symmetric head sensory neurons termed ASH are the main detectors of aversive nociceptive signals. Through their downstream connections in the nervous system, ASH activation causes the animal to initiate backward locomotion to escape and avoid the harmful stimulus. Modulation of avoidance behavior allows for situation-appropriate sensitivity and response to stimuli. We previously reported a role for gap junctions in the transport of regulatory cGMP to the ASHs where it functions to dampen avoidance responses.

METHODS

Here, we used genetic mutants and a combination of cell-selective rescue and knockdown experiments to identify gap junction proteins (innexins) involved in modulating ASH-mediated nociceptive behavioral responses.

RESULTS

We have characterized six additional innexins that have overlapping and distinct roles within this regulatory network: INX-7, INX-15, INX-16, INX-17, UNC-7, and UNC-9.

CONCLUSIONS

This work expands our understanding of the extent to which ASH sensitivity can be tuned in a non-cell-autonomous manner.

摘要

背景/目的：在其原生土壤和堆肥栖息地中依靠对环境线索的感官感知来生存。这些线索提供有关养分可用性、交配伙伴或捕食及危险信号的信息。在[具体生物名称未给出]中，两个双侧对称的头部感觉神经元ASH是厌恶伤害性信号的主要探测器。通过它们在神经系统中的下游连接，ASH激活会使动物启动向后运动以逃避和避免有害刺激。回避行为的调节允许对刺激具有适合情境的敏感性和反应。我们之前报道了间隙连接在将调节性环鸟苷酸（cGMP）转运到ASH中的作用，在ASH中它起到减弱回避反应的作用。

方法

在此，我们使用基因变异体以及细胞选择性拯救和敲低实验的组合来鉴定参与调节ASH介导的伤害性行为反应的间隙连接蛋白（连接蛋白）。

结果

我们已经鉴定出另外六种连接蛋白，它们在这个调节网络中具有重叠和不同的作用：INX - 7、INX - 15、INX - 16、INX - 17、UNC - 7和UNC - 9。

结论

这项工作扩展了我们对ASH敏感性能够以非细胞自主方式进行调节程度的理解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f199/11941935/811858a17061/genes-16-00260-g001.jpg

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广泛的缝隙连接神经网络调节厌恶行为。

An Extensive Gap Junction Neural Network Modulates Aversive Behavior.

作者信息

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出版信息

METHODS

RESULTS

CONCLUSIONS

方法

结果

结论

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