神经肽Y (NPY)通过可能激活NPY1受体抑制小鼠心房自发收缩。

Y Oki, H Teraoka, T Kitazawa
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引用次数: 5

摘要

神经肽Y (NPY)通过激活g蛋白偶联的NPY受体引起各种中枢和外周作用。尽管已经报道了NPY在心脏作用方面的物种依赖性差异,但尚未在小鼠(广泛使用的实验动物)中检查对NPY的反应。本研究旨在阐明小鼠心房对NPY的反应及参与反应的受体亚型。神经肽Y引起自发性搏动右心房负性肌力和负性变时作用。负性肌力作用比负性变时作用更明显。因此,我们详细研究了负性肌力作用,以评估npy诱导的小鼠心房心脏作用。神经肽y诱导的负性肌力作用不受阿托品的影响,但在百日咳毒素处理小鼠的心房中被消除。在利血平处理小鼠的离体心房制剂中,npy诱导的负性肌力作用显著减弱。[Leu31, Pro34]-NPY能有效减少心房药物的自发收缩,而肽YY不能。虽然Y1, Y2, Y4和Y5受体mRNA在大脑中表达几乎相等,但NPY1受体mRNA在心房中主要表达。综上所述,NPY通过激活小鼠心房Y1受体引起负性肌力和变时作用。Y1 mRNA在心房的高表达表明NPY在调节小鼠心脏收缩中的功能作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Neuropeptide Y (NPY) inhibits spontaneous contraction of the mouse atrium by possible activation of the NPY1 receptor.

Neuropeptide Y (NPY) causes various central and peripheral actions through activation of G-protein-coupled NPY receptors. Although a species-dependent difference in cardiac actions of NPY has been reported, the responses to NPY have not been examined in mice, widely used experimental animals. This study aimed to clarify the responses to NPY and the receptor subtype involved in the responses in mouse atrium. Neuropeptide Y caused negative inotropic and negative chronotropic actions in spontaneous beating right atria. Negative inotropic actions were more marked than negative chronotropic actions. Therefore, negative inotropic actions were studied in detail for evaluation of the NPY-induced cardiac actions in mouse atrium. Neuropeptide Y-induced negative inotropic actions were not affected by atropine but were abolished in the atria from pertussis toxin-treated mice. In isolated atrial preparations from reserpine-treated mice, NPY-induced negative inotropic actions were significantly attenuated. [Leu31, Pro34]-NPY, but not peptide YY, was effective in decreasing spontaneous contraction in atrial preparations. Although Y1 , Y2 , Y4 and Y5 receptor mRNAs were expressed almost equally in the brain, NPY1 receptor mRNA was dominantly expressed in the atrium. In conclusion, NPY caused negative inotropic and chronotropic actions through activation of the Y1 receptor in the mouse atrium. A high expression level of Y1 mRNA in the atrium suggests a functional role of NPY in the regulation of mouse cardiac contraction.

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