Differential effects of exercise and hormone treatment on spinal cord injury-induced changes in micturition and morphology of external urethral sphincter motoneurons.

IF 1.9 4区 医学 Q4 NEUROSCIENCES
Emily A Hibbard, Xiaolong Du, Yihong Zhang, Xiao-Ming Xu, Lingxiao Deng, Dale R Sengelaub
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引用次数: 0

Abstract

Background: Spinal cord injury (SCI) results in lesions that destroy tissue and spinal tracts, leading to deficits in locomotor and autonomic function. We have previously shown that after SCI, surviving motoneurons innervating hindlimb muscles exhibit extensive dendritic atrophy, which can be attenuated by treadmill training or treatment with gonadal hormones post-injury. We have also shown that following SCI, both exercise and treatment with gonadal hormones improve urinary function. Animals exercised with forced running wheel training show improved urinary function as measured by bladder cystometry and sphincter electromyography, and treatment with gonadal hormones improves voiding patterns as measured by metabolic cage testing.

Objective: The objective of the current study was to examine the potential protective effects of exercise or hormone treatment on the structure and function of motoneurons innervating the external urethral sphincter (EUS) after contusive SCI.

Methods: Gonadally intact young adult male rats received either a sham or a thoracic contusion injury. Immediately after injury, one cohort of animals was implanted with subcutaneous Silastic capsules filled with estradiol (E) and dihydrotestosterone (D) or left blank; continuous hormone treatment occurred for 4 weeks post-injury. A separate cohort of SCI-animals received either 12 weeks of forced wheel running exercise or no exercise treatment starting two weeks after injury. At the end of treatment, urinary void volume was measured using metabolic cages and EUS motoneurons were labeled with cholera toxin-conjugated horseradish peroxidase, allowing for assessment of dendritic morphology in three dimensions.

Results: Locomotor performance was improved in exercised animals after SCI. Void volumes increased after SCI in all animals; void volume was unaffected by treatment with exercise, but was dramatically improved by treatment with E + D. Similar to what we have previously reported for hindlimb motoneurons after SCI, dendritic length of EUS motoneurons was significantly decreased after SCI compared to sham animals. Exercise did not reverse injury-induced atrophy, however E + D treatment significantly protected dendritic length.

Conclusions: These results suggest that some aspects of urinary dysfunction after SCI can be improved through treatment with gonadal hormones, potentially through their effects on EUS motoneurons. Moreover, a more comprehensive treatment regime that addresses multiple SCI-induced sequelae, i.e., locomotor and voiding deficits, would include both hormones and exercise.

运动和激素治疗对脊髓损伤引起的排尿和尿道外括约肌运动神经元形态变化的不同影响
背景:脊髓损伤(SCI)会导致组织和脊髓束受损,从而导致运动和自主神经功能障碍。我们曾研究表明,脊髓损伤后,支配后肢肌肉的运动神经元会出现广泛的树突萎缩,而这种萎缩可通过跑步机训练或伤后使用性腺激素治疗而得到缓解。我们还发现,在损伤后,运动和性腺激素治疗都能改善泌尿功能。通过膀胱膀胱测定法和括约肌肌电图测量,接受强迫跑轮训练的动物的排尿功能得到改善;通过代谢笼测试测量,使用性腺激素治疗可改善排尿模式:本研究旨在探讨运动或激素治疗对挫伤性 SCI 后支配尿道外括约肌(EUS)的运动神经元的结构和功能的潜在保护作用:方法:性腺完整的年轻成年雄性大鼠接受假性或胸部挫伤。损伤后,一组动物立即皮下植入填充有雌二醇(E)和双氢睾酮(D)的Silastic胶囊或留空;损伤后持续激素治疗4周。另一组 SCI 动物在伤后两周开始接受为期 12 周的强迫轮跑运动或不进行运动治疗。在治疗结束时,使用代谢笼测量排尿量,并用霍乱毒素结合辣根过氧化物酶标记EUS运动神经元,以便对树突形态进行三维评估:结果:脊髓损伤后,运动动物的运动能力得到改善。脊髓损伤后,所有动物的空泡体积都有所增加;空泡体积不受运动治疗的影响,但E+D治疗可显著改善。与我们之前报道的后肢运动神经元在脊髓损伤后的情况类似,EUS运动神经元的树突长度在脊髓损伤后比假性动物显著减少。运动并不能逆转损伤诱导的萎缩,但 E + D 治疗能显著保护树突长度:这些结果表明,通过使用性腺激素治疗,可改善 SCI 后排尿功能障碍的某些方面,这可能是通过其对 EUS 运动神经元的影响实现的。此外,针对 SCI 引起的多种后遗症(即运动和排尿障碍)的更全面的治疗方案应包括激素和运动。
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来源期刊
CiteScore
5.40
自引率
3.60%
发文量
22
审稿时长
>12 weeks
期刊介绍: This interdisciplinary journal publishes papers relating to the plasticity and response of the nervous system to accidental or experimental injuries and their interventions, transplantation, neurodegenerative disorders and experimental strategies to improve regeneration or functional recovery and rehabilitation. Experimental and clinical research papers adopting fresh conceptual approaches are encouraged. The overriding criteria for publication are novelty, significant experimental or clinical relevance and interest to a multidisciplinary audience. Experiments on un-anesthetized animals should conform with the standards for the use of laboratory animals as established by the Institute of Laboratory Animal Resources, US National Academy of Sciences. Experiments in which paralytic agents are used must be justified. Patient identity should be concealed. All manuscripts are sent out for blind peer review to editorial board members or outside reviewers. Restorative Neurology and Neuroscience is a member of Neuroscience Peer Review Consortium.
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