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- Title
Properties and Fate of Oligodendrocyte Progenitor Cells in the Corpus Callosum, Motor Cortex, and Piriform Cortex of the Mouse.
- Authors
Clarke, Laura E.; Young, Kaylene M.; Hamilton, Nicola B.; Huiliang Li; Richardson, William D.; Attwell, David
- Abstract
Oligodendrocyte progenitor cells (OPCs) in the postnatal mouse corpus callosum (CC) and motor cortex (Ctx) reportedly generate only oligodendrocytes (OLs), whereas those in the piriform cortex may also generate neurons. OPCs have also been subdivided based on their expression of voltage-gated ion channels, ability to respond to neuronal activity, and proliferative state. To determine whether OPCs in the piriform cortex have inherently different physiological properties from those in the CC and Ctx, we studied acute brain slices from postnatal transgenic mice in which GFP expression identifies OL lineage cells. We whole-cell patch clamped GFP-expressing (GFP+) cells within the CC, Ctx, and anterior piriform cortex (aPC) and used prelabeling with 5-ethynyl-2'-deoxyuridine (EdU) to assess cell proliferation. After recording, slices were immunolabeled and OPCs were defined by strong expression of NG2. NG2+ OPCs in the white and gray matter proliferated and coexpressed PDGFRα and voltage-gated Na+ channels (INa). Approximately 70% of OPCs were capable of generating regenerative depolarizations. In addition to OLIG2+NG2+INa+OPCs and OLIG2+NG2neg INaneg OLs, we identified cells with low levels of NG2 limited to the soma or the base of some processes. These cells had a significantly reduced INa and a reduced ability to incorporate EdU when compared with OPCs and probably correspond to early differentiating OLs. By combining EdU labeling and lineage tracing using Pdgfrα-CreERT2 : R26R-YFP transgenic mice, we double labeled OPCs and traced their fate in the postnatal brain. These OPCs generated OLs but did not generate neurons in the aPC or elsewhere at any time that we examined.
- Subjects
PROGENITOR cells; CORPUS callosum; MOTOR cortex; DEOXYURIDINE triphosphate; CELL proliferation; LABORATORY mice
- Publication
Journal of Neuroscience, 2012, Vol 32, Issue 24, p8173
- ISSN
0270-6474
- Publication type
Article
- DOI
10.1523/JNEUROSCI.0928-12.2012