Journal
NATURE NEUROSCIENCE
Volume 16, Issue 6, Pages 668-+Publisher
NATURE PUBLISHING GROUP
DOI: 10.1038/nn.3390
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Funding
- Kirschstein National Research Service Award grant from the US National Institutes of Health [F32NS076098]
- US National Institutes of Health [NS051509, NS050274]
- Brain Science Institute at Johns Hopkins University
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The adult CNS contains an abundant population of oligodendrocyte precursor cells (NG2(+) cells) that generate oligodendrocytes and repair myelin, but how these ubiquitous progenitors maintain their density is unknown. We generated NG2-mEGFP mice and used in vivo two-photon imaging to study their dynamics in the adult brain. Time-lapse imaging revealed that NG2(+) cells in the cortex were highly dynamic; they surveyed their local environment with motile filopodia, extended growth cones and continuously migrated. They maintained unique territories though self-avoidance, and NG2(+) cell loss though death, differentiation or ablation triggered rapid migration and proliferation of adjacent cells to restore their density. NG2(+) cells recruited to sites of focal CNS injury were similarly replaced by a proliferative burst surrounding the injury site. Thus, homeostatic control of NG2(+) cell density through a balance of active growth and self-repulsion ensures that these progenitors are available to replace oligodendrocytes and participate in tissue repair.
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