Protein post-translational modifications after spinal cord injury

Deficits in intrinsic neuronal capacities in the spinal cord, a lack of growth support, and suppression of axonal outgrowth by inhibitory molecules mean that spinal cord injury almost always has devastating consequences. As such, one of the primary targets for the treatment of spinal cord injury is...

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Bibliographic Details
Published in:Neural regeneration research 2021-10, Vol.16 (10), p.1935-1943
Main Authors: Zhu, Shuang, Yang, Bing-Sheng, Li, Si-Jing, Tong, Ge, Tan, Jian-Ye, Wu, Guo-Feng, Li, Lin, Chen, Guo-Li, Chen, Qian, Lin, Li-Jun
Format: Article
Language:English
Subjects:
Brain research
Care and treatment
Cellular proteins
Development and progression
extracellular matrix
function impairment
glial scar
nerve regeneration
neuropathic pain
post-translational modification
spinal cord injury
therapeutic target
Genetic aspects
Genetic engineering
Health aspects
Review
Spinal cord injuries
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Summary:Deficits in intrinsic neuronal capacities in the spinal cord, a lack of growth support, and suppression of axonal outgrowth by inhibitory molecules mean that spinal cord injury almost always has devastating consequences. As such, one of the primary targets for the treatment of spinal cord injury is to develop strategies to antagonize extrinsic or intrinsic axonal growth-inhibitory factors or enhance the factors that support axonal growth. Among these factors, a series of individual protein level disorders have been identified during the generation of axons following spinal cord injury. Moreover, an increasing number of studies have indicated that post-translational modifications of these proteins have important implications for axonal growth. Some researchers have discovered a variety of post-translational modifications after spinal cord injury, such as tyrosination, acetylation, and phosphorylation. In this review, we reviewed the post-translational modifications for axonal growth, functional recovery, and neuropathic pain after spinal cord injury, a better understanding of which may elucidate the dynamic change of spinal cord injury-related molecules and facilitate the development of a new therapeutic strategy for spinal cord injury.
ISSN:1673-5374
1876-7958
DOI:10.4103/1673-5374.308068