NAG-1/GDF-15转基因雌性小鼠在福尔马林诱导的炎症性疼痛中表现出第二阶段伤害感受的延迟峰值期。

IF 1.8 4区 医学 Q3 MEDICINE, RESEARCH & EXPERIMENTAL
Sheu-Ran Choi, Jaehak Lee, Ji-Young Moon, Seung Joon Baek, Jang-Hern Lee
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引用次数: 0

摘要

非甾体抗炎药激活基因-1(NAG-1),也称为生长分化因子-15(GDF-15),与癌症、糖尿病和炎症有关,但对NAG-1在伤害性中的作用了解有限。在这里,我们检测了NAG-1转基因(TG)小鼠和野生型(WT)同窝仔的伤害性行为。机械灵敏度通过冯-弗雷灯丝测试进行评估,热灵敏度通过热板、哈格里夫斯和丙酮测试进行评估。在观察福尔马林诱导的伤害性行为后,在脊髓中检测c-Fos、胶质纤维酸性蛋白(GFAP)和电离钙结合接头分子-1(Iba-1)的免疫反应性。NAG-1 TG和WT小鼠的机械或热敏感性没有差异。足底福尔马林注射诱导雄性和雌性NAG-1 TG和WT小鼠的伤害性行为。与WT雌性小鼠相比,NAG-1 TG雌性小鼠第二阶段的峰值期延迟,而两组小鼠伤害性行为的累积时间没有差异。福尔马林增加了TG和WT雌性小鼠的脊髓c-Fos免疫反应性。在TG和WT雌性小鼠的脊髓中,GFAP和Iba-1免疫反应性均未增加。这些发现表明,NAG-1 TG小鼠对机械和热刺激的基线敏感性与WT小鼠相当,雌性小鼠中的NAG-1可能对炎症疼痛的第二阶段具有抑制作用。因此,它可能成为抑制中枢神经系统疼痛反应的新靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
NAG-1/GDF-15 Transgenic Female Mouse Shows Delayed Peak Period of the Second Phase Nociception in Formalin-induced Inflammatory Pain.

Non-steroidal anti-inflammatory drug-activated gene-1 (NAG-1), also known as growth differentiation factor-15 (GDF-15), is associated with cancer, diabetes, and inflammation, while there is limited understanding of the role of NAG-1 in nociception. Here, we examined the nociceptive behaviors of NAG-1 transgenic (TG) mice and wild-type (WT) littermates. Mechanical sensitivity was evaluated by using the von Frey filament test, and thermal sensitivity was assessed by the hot-plate, Hargreaves, and acetone tests. c-Fos, glial fibrillary acidic protein (GFAP), and ionized calcium binding adaptor molecule-1 (Iba-1) immunoreactivity was examined in the spinal cord following observation of the formalin-induced nociceptive behaviors. There was no difference in mechanical or thermal sensitivity for NAG-1 TG and WT mice. Intraplantar formalin injection induced nociceptive behaviors in both male and female NAG-1 TG and WT mice. The peak period in the second phase was delayed in NAG-1 TG female mice compared with that of WT female mice, while there was no difference in the cumulative time of nociceptive behaviors between the two groups of mice. Formalin increased spinal c-Fos immunoreactivity in both TG and WT female mice. Neither GFAP nor Iba-1 immunoreactivity was increased in the spinal cord of TG and WT female mice. These findings indicate that NAG-1 TG mice have comparable baseline sensitivity to mechanical and thermal stimulation as WT mice and that NAG-1 in female mice may have an inhibitory effect on the second phase of inflammatory pain. Therefore, it could be a novel target to inhibit central nervous system response in pain.

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来源期刊
Experimental Neurobiology
Experimental Neurobiology Neuroscience-Cellular and Molecular Neuroscience
CiteScore
4.30
自引率
4.20%
发文量
29
期刊介绍: Experimental Neurobiology is an international forum for interdisciplinary investigations of the nervous system. The journal aims to publish papers that present novel observations in all fields of neuroscience, encompassing cellular & molecular neuroscience, development/differentiation/plasticity, neurobiology of disease, systems/cognitive/behavioral neuroscience, drug development & industrial application, brain-machine interface, methodologies/tools, and clinical neuroscience. It should be of interest to a broad scientific audience working on the biochemical, molecular biological, cell biological, pharmacological, physiological, psychophysical, clinical, anatomical, cognitive, and biotechnological aspects of neuroscience. The journal publishes both original research articles and review articles. Experimental Neurobiology is an open access, peer-reviewed online journal. The journal is published jointly by The Korean Society for Brain and Neural Sciences & The Korean Society for Neurodegenerative Disease.
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