Axonal plasticity elicits long-term changes in oligodendroglia and myelinated fibers

Axons are linked to induction of myelination during development and to the maintenance of myelin and myelinated tracts in the adult CNS. Currently, it is unknown whether and how axonal plasticity in adult CNS impacts the myelinating cells and their precursors. In this article, we report that newly f...

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Bibliographic Details
Published in:Glia 2010-01, Vol.58 (1), p.29-42
Main Authors: Drøjdahl, Nina, Nielsen, Helle Hvilsted, Gardi, Jonathan E., Wree, Andreas, Peterson, Alan C., Nyengaard, Jens Randel, Eyer, Joël, Finsen, Bente
Format: Article
Language:English
Subjects:
Animals
Antigens - metabolism
Axons - physiology
Axons - ultrastructure
Axotomy - methods
beta-Galactosidase - genetics
beta-Galactosidase - metabolism
CD11b Antigen - metabolism
entorhinal cortex lesion
Female
Hippocampus - injuries
Hippocampus - metabolism
Hippocampus - pathology
Hippocampus - ultrastructure
LacZ transgenic mice
Life Sciences
Male
Mice
Mice, Inbred C57BL
Mice, Transgenic
Microscopy, Electron, Transmission - methods
Myelin Basic Protein - genetics
Myelin Sheath - metabolism
Myelin Sheath - ultrastructure
myelination
Nerve Fibers, Myelinated - metabolism
Nerve Fibers, Myelinated - ultrastructure
Nerve Regeneration - genetics
Neuronal Plasticity - genetics
Neuronal Plasticity - physiology
Oligodendroglia - metabolism
Oligodendroglia - ultrastructure
Perforant Pathway - injuries
Perforant Pathway - metabolism
Proteoglycans - metabolism
Silver Staining - methods
sprouting
Statistics, Nonparametric
stereology
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Summary:Axons are linked to induction of myelination during development and to the maintenance of myelin and myelinated tracts in the adult CNS. Currently, it is unknown whether and how axonal plasticity in adult CNS impacts the myelinating cells and their precursors. In this article, we report that newly formed axonal sprouts are able to induce a protracted myelination response in adult CNS. We show that newly formed axonal sprouts, induced by lesion of the entorhino–hippocampal perforant pathway, have the ability to induce a myelination response in stratum radiatum and lucidum CA3. The lesion resulted in significant recruitment of newly formed myelinating cells, documented by incorporation of the proliferation marker bromodeoxyuridine into chondroitin sulphate NG2 expressing cells in stratum radiatum and lucidum CA3 early after lesion, and the occurrence of a 28% increase in the number of oligodendrocytes, of which some had incorporated bromodeoxyuridine, 9 weeks post‐lesion. Additionally, a marked increase (41%) in myelinated fibres was detected in silver stained sections. Interestingly, these apparently new fibres achieved the same axon diameter as unlesioned mice but myelin thickness remained thinner than normal, suggesting that the sprouting axons in stratum radiatum and lucidum CA3 were not fully myelinated 9 weeks after lesion. Our combined results show that sprouting axons provide a strong stimulus to oligodendrocyte lineage cells to engage actively in the myelination processes in the adult CNS. © 2009 Wiley‐Liss, Inc.
ISSN:0894-1491
1098-1136
1098-1136
DOI:10.1002/glia.20897