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果蝇神经肽F及其受体NPFR1定义了一条可急性调节酒精敏感性的信号通路。

Drosophila neuropeptide F and its receptor, NPFR1, define a signaling pathway that acutely modulates alcohol sensitivity.

作者信息

Wen Tieqiao, Parrish Clayton A, Xu Dan, Wu Qi, Shen Ping

机构信息

Department of Cellular Biology and Biomedical and Health Sciences Institute, University of Georgia, 724 Biological Sciences Building, Athens, GA 30602, USA.

出版信息

Proc Natl Acad Sci U S A. 2005 Feb 8;102(6):2141-6. doi: 10.1073/pnas.0406814102. Epub 2005 Jan 27.

DOI:10.1073/pnas.0406814102
PMID:15677721
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC548536/
Abstract

Alcohol is likely to affect neurons nonselectively, and the understanding of its action in the CNS requires elucidation of underlying neuronal circuits and associated cellular processes. We have identified a Drosophila signaling system, comprising neurons expressing neuropeptide F (NPF, a homolog of mammalian neuropeptide Y) and its receptor, NPFR1, that acutely mediates sensitivity to ethanol sedation. Flies deficient in NPF/NPFR1 signaling showed decreased alcohol sensitivity, whereas those overexpressing NPF exhibited the opposite phenotype. Furthermore, controlled functional disruption of NPF or NPFR1 neurons in adults rapidly confers resistance to ethanol sedation. Finally, the NPF/NPFR1 system selectively mediates sedation by ethanol vapor but not diethyl ether, indicating that the observed NPF/NPFR1 activity reflects a specialized response to alcohol sedation rather than a general response to intoxication by sedative agents. Together, our results provide the molecular and neural basis for the strikingly similar alcohol-responsive behaviors between flies and mammals.

摘要

酒精可能会非选择性地影响神经元,而要理解其在中枢神经系统中的作用,需要阐明潜在的神经回路和相关的细胞过程。我们已经鉴定出一种果蝇信号系统,该系统由表达神经肽F(NPF,哺乳动物神经肽Y的同源物)及其受体NPFR1的神经元组成,该系统可急性介导对乙醇镇静的敏感性。缺乏NPF/NPFR1信号的果蝇对酒精的敏感性降低,而过度表达NPF的果蝇则表现出相反的表型。此外,在成年果蝇中对NPF或NPFR1神经元进行可控的功能破坏可迅速使其对乙醇镇静产生抗性。最后,NPF/NPFR1系统选择性地介导乙醇蒸气引起的镇静作用,而不是二乙醚引起的镇静作用,这表明观察到的NPF/NPFR1活性反映了对酒精镇静的特殊反应,而不是对镇静剂中毒的一般反应。总之,我们的结果为果蝇和哺乳动物之间惊人相似的酒精反应行为提供了分子和神经基础。

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