Effect of TGF-β1-Mediated Exercise Analgesia in Spared Nerve Injury Mice.

IF 3 4区 医学 Q2 NEUROSCIENCES
Xinzheng Sun, Chenghao Wang, Junqi Wu, Xiaoke Chen, Hui He
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引用次数: 2

Abstract

Peripheral nerve injury leads to severe neuropathic pain. Previous studies have highlighted the beneficial effects of physical exercise on alleviating neuropathic pain. Exercise regulating transforming growth factor-β1 (TGF-β1) can improve several diseases and relieve neuropathic pain induced by peripheral nerve injury. Here, we investigated whether exercise could alleviate neuropathic pain by modulating TGF-β1 expression. We assessed mechanical and cold pain behavior and conducted molecular evaluation of the spinal cord. We found that spared nerve injury (SNI) led to mechanical and cold allodynia in the hind paw, elevated the expression of latency-associated peptide- (LAP-) TGF-β1, and activated astroglial in the spinal cord. Exercise decreases allodynia, astroglial activation, and LAP-TGF-β1 in SNI mice. Intrathecal injection of a TGF-type I receptor inhibitor attenuated exercise analgesia and enhanced astroglial activation. These findings demonstrate that exercise induces analgesia by promoting TGF-β1 activation and inhibiting astrogliosis. Our study reveals a new underlying mechanism for exercise-attenuated neuropathic pain in the maintenance stage of neuropathic pain after nerve injury.

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TGF-β1介导的运动镇痛对神经损伤小鼠的影响。
周围神经损伤可导致严重的神经性疼痛。先前的研究强调了体育锻炼对减轻神经性疼痛的有益作用。运动调节转化生长因子-β1 (TGF-β1)可改善多种疾病,减轻周围神经损伤引起的神经性疼痛。本研究探讨运动是否能通过调节TGF-β1的表达来缓解神经性疼痛。我们评估了机械和冷痛行为,并对脊髓进行了分子评估。我们发现,余留神经损伤(SNI)导致后爪机械和冷性异常痛,潜伏期相关肽- (LAP-) TGF-β1表达升高,脊髓星形胶质细胞活化。运动减少SNI小鼠的异常性疼痛、星形胶质细胞激活和LAP-TGF-β1。鞘内注射tgf - 1型受体抑制剂可减轻运动镇痛并增强星形胶质细胞激活。上述结果表明,运动通过促进TGF-β1的激活,抑制星形胶质细胞形成,从而诱导镇痛。我们的研究揭示了运动减轻神经性疼痛在神经损伤后神经性疼痛维持阶段的一种新的潜在机制。
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来源期刊
Neural Plasticity
Neural Plasticity NEUROSCIENCES-
CiteScore
6.80
自引率
0.00%
发文量
77
审稿时长
16 weeks
期刊介绍: Neural Plasticity is an international, interdisciplinary journal dedicated to the publication of articles related to all aspects of neural plasticity, with special emphasis on its functional significance as reflected in behavior and in psychopathology. Neural Plasticity publishes research and review articles from the entire range of relevant disciplines, including basic neuroscience, behavioral neuroscience, cognitive neuroscience, biological psychology, and biological psychiatry.
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