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三种一氧化氮合酶同工酶显著影响小鼠伤害性行为。

The three isoforms of nitric oxide synthase distinctively affect mouse nocifensive behavior.

机构信息

Division of Anesthesiology and Pain Medicine, The Sheikh Zayed Institute for Pediatric Surgical Innovation, Children's National Medical Center, Washington, DC 20010, United States.

出版信息

Nitric Oxide. 2012 Feb 15;26(2):81-8. doi: 10.1016/j.niox.2011.12.004. Epub 2011 Dec 17.

DOI:10.1016/j.niox.2011.12.004
PMID:22202903
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3413204/
Abstract

Nitric oxide synthases (NOSs) have been shown to modulate thermal hyperalgesia and mechanical hypersensitivity in inflammatory and neuropathic pain. However, little is known about the effect of NOSs on baseline function of sensory nerve fibers. Using genetic deficiency and pharmacologic inhibition of NOSs, we examined the impact of the three isoforms NOS1, NOS2, and NOS3 on baseline nocifensive behavior by measuring current vocalization threshold in response to electrical stimulation at 5, 250, 2000 Hz that preferentially stimulate C, Aδ, and Aβ fibers. In response to 5, 250 and 2000 Hz, NOS1-deficient animals had significantly higher current vocalization thresholds compared with wild-type. Genetic deficiency of NOS2 was associated with higher current vocalization thresholds in response to 5 Hz (C-fiber) stimulation. In contrast, NOS3-deficient animals had an overall weak trend toward lower current vocalization thresholds at 5 Hz and significantly lower current vocalization threshold compared with wild-type animals at 250 and 2000 Hz. Therefore, NOSs distinctively affect baseline mouse current vocalization threshold and appear to play a role on nocifensive response to electrical stimulation of sensory nerve fibers.

摘要

一氧化氮合酶(NOSs)已被证明可调节炎症性和神经性疼痛中的热痛觉过敏和机械性超敏反应。然而,关于 NOSs 对感觉神经纤维基线功能的影响知之甚少。我们使用 NOSs 的遗传缺失和药理学抑制,通过测量对以 5、250 和 2000 Hz 刺激为主的电刺激的电流发声阈值,检查三种同工型 NOS1、NOS2 和 NOS3 对基线伤害感受行为的影响,这些频率优先刺激 C、Aδ 和 Aβ 纤维。与野生型相比,NOS1 缺陷型动物对 5、250 和 2000 Hz 的电流发声阈值明显升高。NOS2 基因缺失与 5 Hz(C 纤维)刺激时的更高电流发声阈值相关。相比之下,NOS3 缺陷型动物在 5 Hz 时总体上有较低的电流发声阈值趋势,并且在 250 和 2000 Hz 时与野生型动物相比,电流发声阈值明显降低。因此,NOSs 明显影响小鼠的基线电流发声阈值,并且似乎在感觉神经纤维电刺激的伤害感受反应中发挥作用。

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