肌源性神经营养因子-3减少新生小鼠损伤性本体感觉变性。

D. Wright, J. M. Williams, J. McDonald, Julie A. Carlsten, Michael D. Taylor
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引用次数: 17

摘要

在围产期发育过程中,本体感觉肌传入神经对神经损伤非常敏感。在这里,我们使用骨骼肌中过表达神经营养因子-3 (NT-3)的转基因小鼠(myo/NT-3小鼠)来探索NT-3是否在神经损伤后围产期肌肉传入事件中起神经保护作用。RT-PCR检测NT-3 mRNA的结果显示,野生型肌肉中内源性NT-3 mRNA的水平在产后1周内神经挤压或神经切断术后保持不变。相比之下,myo/NT-3小鼠的NT-3 mRNA水平显著升高,并在损伤后维持或增加。为了评估肌源性NT-3是否可以预防损伤性神经元死亡,我们分析了PN3压迫坐骨神经5天后小鼠DRG中的神经元存活情况。肌肉传入神经逆行预标记和小白蛋白免疫细胞化学均显示,肌肉中NT-3的过表达显著减少了损伤后的神经元损失。在野生型小鼠腓肠肌注射外源性NT-3后,观察到类似的神经保护作用。为检验NT-3是否能预防肌纺锤体退变,在坐骨神经挤压或PN1切片后3周观察纺锤体数量和形态。神经切片后,野生型或肌/NT-3肌肉中均未发现纺锤体,表明NT-3过表达不能维持完全去神经支配后的纺锤体。此外,NT-3过表达不能阻止肌肉中中度纺锤体的丢失,也不能刺激神经挤压后新纺锤体的形成。我们的研究结果表明,NT-3除了对感觉神经元生成和自然发生的细胞死亡的早期作用外,还对出生后发育过程中的肌肉传入神经具有重要的神经保护作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Muscle-derived neurotrophin-3 reduces injury-induced proprioceptive degeneration in neonatal mice.
During perinatal development, proprioceptive muscle afferents are quite sensitive to nerve injury. Here, we have used transgenic mice that overexpress neurotrophin-3 (NT-3) in skeletal muscle (myo/NT-3 mice) to explore whether NT-3 plays a neuroprotective role for perinatal muscle afferents following nerve injury. Measurements of NT-3 mRNA using RT-PCR revealed that levels of endogenous NT-3 mRNA in wild-type muscles remained constant during the first postnatal week following nerve crush or nerve section on postnatal day (PN) 1. In comparison, myo/NT-3 mice had significantly elevated levels of NT-3 mRNA that were maintained or increased following injury. To assess whether muscle-derived NT-3 could prevent injury-induced neuronal death, neuron survival in the DRG was analyzed in mice 5 days after sciatic nerve crush on PN3. Retrograde prelabeling of muscle afferents and parvalbumin immunocytochemistry both revealed that overexpression of NT-3 in muscle significantly reduced neuronal loss following injury. Similar neuroprotective effects of NT-3 were observed in wild-type mice injected with exogenous NT-3 in the gastrocnemius muscles. To test whether NT-3 could prevent muscle spindle degeneration, spindle number and morphology were assessed 3 weeks after sciatic nerve crush or section on PN1. No spindles were present in either wildtype or myo/NT-3 muscles after nerve section, demonstrating that NT-3 overexpression cannot maintain spindles following complete denervation. Moreover, NT-3 overexpression could not prevent moderate spindle loss in muscle and did not stimulate new spindle formation following nerve crush. Our results demonstrate that in addition to its early actions on sensory neuron generation and naturally occurring cell death, NT-3 has important neuroprotective effects on muscle afferents during postnatal development.
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