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- Title
Structural Remodeling of Fibrous Astrocytes after Axonal Injury.
- Authors
Sun, Daniel; Lye-Barthel, Ming; Masland, Richard H.; Jakobs, Tatjana C.
- Abstract
Reactive astrocytes are a pathological hallmark of many CNS injuries and neurodegenerations. They are characterized by hypertrophy of the soma and processes and an increase in the expression of glial fibrillary acidic protein. Because the cells obscure each other in immunostaining, little is known about the behavior of a single reactive astrocyte, nor how single astrocytes combine to form the glial scar. We have investigated the reaction of fibrous astrocytes to axonal degeneration using a transgenic mouse strain expressing enhanced green fluorescent protein in small subsets of astrocytes. Fibrous astrocytes in the optic nerve and corpus callosum initially react to injury by hypertrophy of the soma and processes. They retract their primary processes, simplifying their shape and dramatically reducing their spatial coverage. At 3 d after crush, quantitative analysis revealed nearly a twofold increase in the thickness of the primary processes, a halving of the number of primary processes leaving the soma and an eightfold reduction in the spatial coverage. In the subsequent week, they partially reextend long processes, returning to a near-normal morphology and an extensive spatial overlap. The resulting glial scar consists of an irregular array of astrocyte processes, contrasting with their original orderly arrangement. These changes are in distinct contrast to those reported for reactive protoplasmic astrocytes of the gray matter, in which the number of processes and branchings increase, but the cells continue to maintain nonoverlapping individual territories throughout their response to injury.
- Subjects
ASTROCYTES; AXONS; GREEN fluorescent protein; HYPERTROPHY; TRANSGENIC mice; OPTIC nerve; WOUNDS &; injuries; PHYSIOLOGY
- Publication
Journal of Neuroscience, 2010, Vol 30, Issue 42, p14008
- ISSN
0270-6474
- Publication type
Article
- DOI
10.1523/JNEUROSCI.3605-10.2010