Abstract
Brachial plexus root avulsions cause debilitating upper limb paralysis. Short-term neuroprotective treatments have reported preservation of motor neurons and function in model animals while reports of long-term benefits of such treatments are scarce, especially the morphological sequelae. This morphological study investigated the long-term suppression of c-Jun- and neuronal nitric oxide synthase (nNOS) (neuroprotective treatments for one month) on the motor neuron survival, ultrastructural features of lower motor neurons, and forelimb function at six months after brachial plexus roots avulsion. Neuroprotective treatments reduced oxidative stress and preserved ventral horn motor neurons at the end of the 28-day treatment period relative to vehicle treated ones. Motor neuron sparing was associated with suppression of c-Jun, nNOS, and pro-apoptotic proteins Bim and caspases at this time point. Following 6 months of survival, neutral red staining revealed a significant loss of most of the motor neurons and ventral horn atrophy in the avulsed C6, 7, and 8 cervical segments among the vehicle-treated rats (n = 4). However, rats that received neuroprotective treatments c-Jun JNK inhibitor, SP600125 (n = 4) and a selective inhibitor of nNOS, 7-nitroindazole (n = 4), retained over half of their motor neurons in the ipsilateral avulsed side compared. Myelinated axons in the avulsed ventral horns of vehicle-treated rats were smaller but numerous compared to the intact contralateral ventral horns or neuroprotective-treated groups. In the neuroprotective treatment groups, there was the preservation of myelin thickness around large-caliber axons. Ultrastructural evaluation also confirmed the preservation of organelles including mitochondria and synapses in the two groups that received neuroprotective treatments compared with vehicle controls. Also, forelimb functional evaluation demonstrated that neuroprotective treatments improved functional abilities in the rats. In conclusion, neuroprotective treatments aimed at suppressing degenerative c-Jun and nNOS attenuated apoptosis, provided long-term preservation of motor neurons, their organelles, ventral horn size, and forelimb function.
Highlights
Brachial plexus root avulsion is a leading cause of debilitating chronic pain and upper limb paralysis [1]
Motor neuron counting on neutral red stained slides revealed that 28-day courses of SP600125 and 7-nitroindazole were both significantly neuroprotective compared to vehicle treatment (ANOVA/Tukey all p < 0.05) (Figure 1A)
Neuroprotective treatments, SP600125 and 7-nitroindazole suppressed the expression of their respective targets, c-Jun and neuronal nitric oxide synthase (nNOS) proteins at this time point when compared with the vehicle treatment in standard deviation (SD) rats (Figure 1B i and ii; analysis of variance (ANOVA)/Tukey all p < 0.05)
Summary
Brachial plexus root avulsion is a leading cause of debilitating chronic pain and upper limb paralysis [1]. Previous studies have reported Nissl substance dispersion, organelle dysmorphia, synaptic stripping, glial cell over-activation, downregulation of acetylcholinesterase immunoreactivity as well as a profound functional loss within the first month post avulsion and up to three months [2,3,4,5,6]. Long-term ultrastructural features of the surviving spinal cord cells must be understood since these cells and their surroundings can serve as targets of delayed treatments in human patients and model animals. Treatments such as neurotrophic delivery, cell transplantation, use of scaffolding materials, nerve grafting, re-implantation, and nerve transfers do not fully prevent longterm upper limb paralysis [16,17]. Therapies for brachial plexus root avulsions have been associated with poor clinical and functional outcomes owing to the low intrinsic regenerative capacity of the spinal cord, post-injury inhibitory milieu, and the fact that the majority of motor neurons undergo apoptosis within the first month after avulsion [6]
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