Calcium signaling in neocortical development

ABSTRACT The calcium ion (Ca2+) is an essential second messenger that plays a pivotal role in neurogenesis. In the ventricular zone (VZ) of the neocortex, neural stem cells linger to produce progenitor cells and subsequently neurons and glial cells, which together build up the entire adult brain. Th...

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Veröffentlicht in:Developmental neurobiology (Hoboken, N.J.) N.J.), 2015-04, Vol.75 (4), p.360-368
Hauptverfasser: Uhlén, Per, Fritz, Nicolas, Smedler, Erik, Malmersjö, Seth, Kanatani, Shigeaki
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Sprache:eng
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Zusammenfassung:ABSTRACT The calcium ion (Ca2+) is an essential second messenger that plays a pivotal role in neurogenesis. In the ventricular zone (VZ) of the neocortex, neural stem cells linger to produce progenitor cells and subsequently neurons and glial cells, which together build up the entire adult brain. The radial glial cells, with their characteristic radial fibers that stretch from the inner ventricular wall to the outer cortex, are known to be the neural stem cells of the neocortex. Migrating neurons use these radial fibers to climb from the proliferative VZ in the inner part of the brain to the outer layers of the cortex, where differentiation processes continue. To establish the complex structures that constitute the adult cerebral cortex, proliferation, migration, and differentiation must be tightly controlled by various signaling events, including cytosolic Ca2+ signaling. During development, cells regularly exhibit spontaneous Ca2+ activity that stimulates downstream effectors, which can elicit these fundamental cell processes. Spontaneous Ca2+ activity during early neocortical development depends heavily on gap junctions and voltage dependent Ca2+ channels, whereas later in development neurotransmitters and synapses exert an influence. Here, we provide an overview of the literature on Ca2+ signaling and its impact on cell proliferation, migration, and differentiation in the neocortex. We point out important historical studies and review recent progress in determining the role of Ca2+ signaling in neocortical development. © 2015 Wiley Periodicals, Inc. Develop Neurobiol 75: 360–368, 2015
ISSN:1932-8451
1932-846X
1932-846X
DOI:10.1002/dneu.22273