A Surviving Intact Branch Stabilizes Remaining Axon Architecture after Injury as Revealed by In Vivo Imaging in the Mouse Spinal Cord

The complex morphology of axons presents a challenge in understanding axonal responses to injury and disease. By in vivo two-photon imaging of spinal dorsal column sensory axons, we systematically examined the effect of injury location relative to the main bifurcation point on axon degeneration and...

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Bibliographic Details
Published in:Neuron (Cambridge, Mass.) Mass.), 2015-05, Vol.86 (4), p.947-954
Main Authors: Lorenzana, Ariana O., Lee, Jae K., Mui, Matthew, Chang, Amy, Zheng, Binhai
Format: Article
Language:English
Subjects:
Animals
Architecture
Axons - pathology
Behavior
Cell Survival
Disease Models, Animal
Injuries
Mice
Microscopy
Morphology
Nerve Regeneration - physiology
Nervous system
Neurogenesis
Spinal cord
Spinal Cord Injuries - pathology
Spinal Cord Injuries - physiopathology
Studies
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Summary:The complex morphology of axons presents a challenge in understanding axonal responses to injury and disease. By in vivo two-photon imaging of spinal dorsal column sensory axons, we systematically examined the effect of injury location relative to the main bifurcation point on axon degeneration and regeneration following highly localized laser injuries. Retrograde but not anterograde degeneration was strongly blocked at the bifurcation point at both the acute and subacute phases. Eliminating either the ascending or descending branch led to a poor regenerative response, while eliminating both led to a strong regenerative response. Thus, a surviving intact branch suppresses both retrograde degeneration and regeneration of the injured branch, thereby preserving the remaining axon architecture. Regenerating axons exhibited a dynamic pattern with alternating phases of regeneration and pruning over a chronic period. In vivo imaging continues to reveal new insights on axonal responses to injury in the mammalian spinal cord. •Acute axon degeneration is bidirectional but exhibits an unexpected asymmetry•Injury location relative to a branch point impacts degeneration and regeneration•A surviving intact branch suppresses further degeneration and regeneration•Regenerating axons exhibit dynamic regeneration, pruning and remodeling over time Lorenzana et al. show that injury location relative to a branch point impacts axonal responses and that a surviving intact branch suppresses degeneration and regeneration, revealing new rules and logic in axonal responses to injury in the adult mammalian CNS.
ISSN:0896-6273
1097-4199
DOI:10.1016/j.neuron.2015.03.061