将任务型康复训练与 PTEN 抑制相结合可促进成年小鼠颈脊髓损伤后的轴突再生和上肢熟练运动功能恢复。
Combining task-based rehabilitative training with PTEN inhibition promotes axon regeneration and upper extremity skilled motor function recovery after cervical spinal cord injury in adult mice.
机构信息
Department of Rehabilitation Medicine, the Second Affiliated Hospital of Chongqing Medical University, Chongqing, 400010, China.
Central Laboratory, Xinqiao Hospital, The Army Medical University (Third Military Medical University), Chongqing, 400037, China.
出版信息
Behav Brain Res. 2021 May 7;405:113197. doi: 10.1016/j.bbr.2021.113197. Epub 2021 Feb 20.
BACKGROUND
Conditional deletion of Pten in corticospinal neurons promotes axon sprouting and regeneration after spinal cord injury (SCI). However, regeneration studies targeted on PTEN inhibition seldom show motor function recovery. The promotion of functional recovery can be improved by rehabilitative training under a use-dependent plasticity mechanism.
PURPOSE
To investigate the combined effects of PTEN inhibition and rehabilitative training on axon regeneration and subsequent motor functional improvement after cervical spinal cord injury.
METHODS
Lentiviral particles (Lenti-PTEN-RNAi or Lenti-Scrambled-EGFP) were injected into the right sensorimotor mouse cortex in four experimental groups (PTEN RNAi + Training, PTEN RNAi, Control + Training, Control). Two weeks after injection, all mouse groups received a left C5 crush injury. We performed task-based rehabilitative training for 4 weeks on the PTEN RNAi + Training and Control + Training groups. Biotinylated dextran amine (BDA) was used for anterograde tracing of the dorsal corticospinal tract (dCST). We analysed axonal regeneration through immunohistochemical methods. A battery of behavioral tests was employed to assess functional recovery at Day3 and every other week after injury.
RESULTS
Combining rehabilitative training with PTEN inhibition induced more axon regeneration and synapse reformation in the spinal cord caudal to the lesion site. Rostral to the lesion, the transected dCST axons sprouted into gray matter upon contact. Furthermore, forelimb function was found to be improved after combination therapy during behavioral testing.
CONCLUSION
Combining task-based rehabilitative training with PTEN inhibition further promotes axon regeneration, synaptic plasticity and reorganization of the neural network, with significant improvement in forelimb skilled motor function after cervical spinal cord injury. Our study provides new therapeutic insights for spinal cord injury management in the future.
背景
条件性敲除皮质脊髓神经元中的 Pten 可促进脊髓损伤(SCI)后轴突的发芽和再生。然而,针对 PTEN 抑制的再生研究很少显示出运动功能的恢复。在使用依赖性可塑性机制下进行康复训练可以改善功能恢复的促进作用。
目的
研究 PTEN 抑制与康复训练联合应用对颈脊髓损伤后轴突再生和随后运动功能改善的影响。
方法
在四个实验组(PTEN RNAi+训练组、PTEN RNAi 组、对照组+训练组、对照组)中,将慢病毒颗粒(Lenti-PTEN-RNAi 或 Lenti-Scrambled-EGFP)注射到右侧感觉运动皮层。注射后两周,所有小鼠均接受左侧 C5 挤压伤。PTEN RNAi+训练组和对照组+训练组进行了 4 周的基于任务的康复训练。使用生物素化葡聚糖胺(BDA)对背侧皮质脊髓束(dCST)进行顺行示踪。通过免疫组织化学方法分析轴突再生情况。采用一系列行为测试评估损伤后第 3 天和每两周的功能恢复情况。
结果
将康复训练与 PTEN 抑制相结合,可诱导损伤部位以下脊髓中的更多轴突再生和突触重建。在损伤的近端,横断的 dCST 轴突在接触时会向灰质中发芽。此外,在行为测试中,联合治疗后发现前肢功能得到改善。
结论
将基于任务的康复训练与 PTEN 抑制相结合,进一步促进了轴突再生、突触可塑性和神经网络的重组,在颈脊髓损伤后显著改善了前肢熟练运动功能。我们的研究为未来的脊髓损伤管理提供了新的治疗思路。
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