The Effects of an RNA Synthesis Inhibitor on the Survival and Regeneration of Rat Motoneurones Injured at Birth

Clowry G.J., Sen P., Vrbová G.
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引用次数: 2

Abstract

This preliminary study aimed to test the proposal that neuronal death is triggered by expression of specific genes. In rat pups, the sciatic nerve was injured unilaterally on the first day after birth and actinomycin D, an RNA synthesis inhibitor, was administered 3 days later in a lower and higher dose to rat pups just prior to onset of motoneurone death induced by the lesion. Four weeks later, sciatic motoneurones from operated and contralateral pools were counted and their size measured. Significantly fewer motoneurones (16.7% ± 2.9 SD) survived when the animals were treated with a lower dose of the inhibitor compared to saline treated controls (36.6% ± 12.7 SD). Experiments recording tension generated in soleus muscle in response to sciatic nerve stimulation, at different ages following nerve crush, suggested that the treatment with the RNA synthesis inhibitor may have delayed regeneration of motor axons back to the muscle. However, survival of motoneurones after treatment with the higher dose did not differ significantly from controls (27.5% ± 1.3 SD. Nevertheless, the higher dose significantly reduced growth of motoneurones after 4 weeks. Therefore, the higher dose, although impeding normal development of motoneurones, is less neurotoxic than a lower dose. This suggests that a balancing of conflicting effects may have occurred. The neurodegenerative effects of delayed reinnervation induced by RNA synthesis inhibition may be balanced by some neuroprotective effects at a higher dose. More extensive studies are required to validate these pilot findings.

RNA合成抑制剂对出生时损伤大鼠运动神经元存活和再生的影响
这项初步研究旨在验证神经元死亡是由特定基因的表达引发的说法。在大鼠幼崽中,出生后第一天单侧坐骨神经损伤,3天后,在损伤引起的运动神经元死亡开始之前,以低剂量和高剂量给药放线菌素D,一种RNA合成抑制剂。4周后,计数手术池和对侧池的坐骨运动神经元并测量其大小。与生理盐水对照组(36.6%±12.7 SD)相比,低剂量抑制剂组动物的运动神经元存活率明显减少(16.7%±2.9 SD)。实验记录了坐骨神经受压后不同年龄比目鱼肌对坐骨神经刺激产生的张力,提示RNA合成抑制剂治疗可能延迟了运动轴突向肌肉的再生。然而,高剂量治疗后运动神经元的存活率与对照组没有显著差异(27.5%±1.3 SD)。然而,高剂量在4周后显著降低了运动神经元的生长。因此,高剂量虽然会阻碍运动神经元的正常发育,但其神经毒性却低于低剂量。这表明可能已经发生了相互冲突的影响的平衡。RNA合成抑制引起的延迟神经再生的神经退行性作用可能在较高剂量下被一些神经保护作用所平衡。需要更广泛的研究来证实这些初步发现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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