Literature DB >> 29030051

Determinants of Axon Growth, Plasticity, and Regeneration in the Context of Spinal Cord Injury.

Angela R Filous1, Jan M Schwab2.   

Abstract

The mechanisms that underlie recovery after injury of the central nervous system have rarely been definitively established. Axon regrowth remains the major prerequisite for plasticity, regeneration, circuit formation, and eventually functional recovery. The attributed functional relevance of axon regrowth, however, will depend on several subsequent conditional neurobiological modifications, including myelination and synapse formation, but also pruning of aberrant connectivity. Despite the ability to revamp axon outgrowth by altering an increasing number of extracellular and intracellular targets, disentangling which axons are responsible for the recovery of function from those that are functionally silent, or even contributing to aberrant functions, represents a pertinent void in our understanding, challenging the intuitive translational link between anatomical and functional regeneration. Anatomic hallmarks of regeneration are not static and are largely activity dependent. Herein, we survey mechanisms leading to the formation of dystrophic growth cone at the injured axonal tip, the subsequent axonal dieback, and the molecular determinants of axon growth, plasticity, and regeneration in the context of spinal cord injury.
Copyright © 2018 American Society for Investigative Pathology. Published by Elsevier Inc. All rights reserved.

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Year:  2017        PMID: 29030051      PMCID: PMC7338909          DOI: 10.1016/j.ajpath.2017.09.005

Source DB:  PubMed          Journal:  Am J Pathol        ISSN: 0002-9440            Impact factor:   4.307


  125 in total

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3.  Critical calpain-dependent ultrastructural alterations underlie the transformation of an axonal segment into a growth cone after axotomy of cultured Aplysia neurons.

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5.  Conditioning injury-induced spinal axon regeneration requires signal transducer and activator of transcription 3 activation.

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6.  Identification of two distinct macrophage subsets with divergent effects causing either neurotoxicity or regeneration in the injured mouse spinal cord.

Authors:  Kristina A Kigerl; John C Gensel; Daniel P Ankeny; Jessica K Alexander; Dustin J Donnelly; Phillip G Popovich
Journal:  J Neurosci       Date:  2009-10-28       Impact factor: 6.167

7.  High-resolution intravital imaging reveals that blood-derived macrophages but not resident microglia facilitate secondary axonal dieback in traumatic spinal cord injury.

Authors:  Teresa A Evans; Deborah S Barkauskas; Jay T Myers; Elisabeth G Hare; Jing Qiang You; Richard M Ransohoff; Alex Y Huang; Jerry Silver
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10.  Identification of myelin-associated glycoprotein as a major myelin-derived inhibitor of neurite growth.

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Review 3.  Extracellular Matrix in Neural Plasticity and Regeneration.

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4.  Delayed (21 Days) Post Stroke Treatment With RPh201, a Botany-Derived Compound, Improves Neurological Functional Recovery in a Rat Model of Embolic Stroke.

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5.  Reactivation of Dormant Relay Pathways in Injured Spinal Cord by KCC2 Manipulations.

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6.  Effect of lesion proximity on the regenerative response of long descending propriospinal neurons after spinal transection injury.

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Review 7.  Brain Functional Reserve in the Context of Neuroplasticity after Stroke.

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9.  Effective robotic assistive pattern of treadmill training for spinal cord injury in a rat model.

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Review 10.  Axonal regeneration in zebrafish spinal cord.

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