Guangzhou Women and Children's Medical Center, Guangzhou Medical University, Guangzhou, Guangdong, China.
Neurorehabil Neural Repair. 2021 Feb;35(2):145-157. doi: 10.1177/1545968320981962.
. Little is known about the induction of functional and brain structural reorganization in hemiplegic cerebral palsy (HCP) by constraint-induced movement therapy (CIMT). . We aimed to explore the specific molecular mechanism of functional and structural plasticity related to CIMT in HCP. . The mice were divided into a control group and HCP groups with different interventions (unconstraint-induced movement therapy [UNCIMT], CIMT or siRNA-Nogo-A [SN] treatment): the HCP, HCP+UNCIMT, HCP+CIMT, HCP+SN, and HCP+SN+CIMT groups. Rotarod and front-limb suspension tests, immunohistochemistry, Golgi-Cox staining, transmission electron microscopy, and Western blot analyses were applied to measure motor function, neurons and neurofilament density, dendrites/axon areas, myelin integrity, and Nogo-A/NgR/RhoA/ROCK expression in the motor cortex. . The mice in the HCP+CIMT group had better motor function, greater neurons and neurofilament density, dendrites/axon areas, myelin integrity, and lower Nogo-A/NgR/RhoA/ROCK expression in the motor cortex than the HCP and HCP+UNCIMT groups ( < .05). Moreover, the expression of Nogo-A/NgR/RhoA/ROCK, the improvement of neural remodeling and motor function of mice in the HCP+SN group were similar to those in the HCP+CIMT group ( > .05). The neural remodeling and motor function of the HCP+SN+CIMT group were significantly greater than those in the HCP+SN and HCP+CIMT groups ( < .05). Motor function were positively correlated with the density of neurons ( = 0.450 and 0.309, respectively; < .05) and neurofilament ( = 0.717 and 0.567, respectively; < .05). . CIMT might promote the remodeling of neurons, neurofilament, dendrites/axon areas, and myelin in the motor cortex by partially inhibiting the Nogo-A/NgR/RhoA/ROCK pathway, thereby promoting the improvement of motor function in HCP mice.
. 关于强制性运动疗法(CIMT)对偏瘫脑瘫(HCP)患者的功能和脑结构重排的诱导作用,人们知之甚少。. 本研究旨在探索与 CIMT 相关的功能和结构可塑性的特定分子机制。. 将小鼠分为对照组和具有不同干预措施的 HCP 组(非强制性运动疗法 [UNCIMT]、CIMT 或 siRNA-Nogo-A [SN] 治疗):HCP、HCP+UNCIMT、HCP+CIMT、HCP+SN 和 HCP+SN+CIMT 组。通过旋转棒和前肢悬停测试、免疫组织化学、Golgi-Cox 染色、透射电子显微镜和 Western blot 分析,测量运动功能、神经元和神经丝密度、树突/轴突面积、髓鞘完整性以及运动皮层中的 Nogo-A/NgR/RhoA/ROCK 表达。. HCP+CIMT 组小鼠的运动功能、神经元和神经丝密度、树突/轴突面积、髓鞘完整性以及运动皮层中的 Nogo-A/NgR/RhoA/ROCK 表达均优于 HCP 和 HCP+UNCIMT 组( <.05)。此外,HCP+SN 组小鼠的神经重塑和运动功能改善与 HCP+CIMT 组相似( >.05)。HCP+SN+CIMT 组的神经重塑和运动功能明显大于 HCP+SN 和 HCP+CIMT 组( <.05)。运动功能与神经元密度呈正相关( = 0.450 和 0.309,分别; <.05)和神经丝( = 0.717 和 0.567,分别; <.05)。. CIMT 可能通过部分抑制 Nogo-A/NgR/RhoA/ROCK 通路来促进运动皮层中神经元、神经丝、树突/轴突面积和髓鞘的重塑,从而促进 HCP 小鼠运动功能的改善。
