Dynamics of Cell Migration from the Lateral Ganglionic Eminence in the Rat
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It is concluded that cells of the primary olfactory cortex derive from the lateral ganglionic eminence and that some early generated cells migrating from the longitudinal eminence transgress the cortico-striatal boundary entering the preplate of the neocortical primordium.Abstract:
From previous developmental studies, it has been proposed that the neurons of the ventrolateral cortex, including the primary olfactory cortex, differentiate from progenitor cells in the lateral ganglionic eminence. The objective of the present study was to test this hypothesis. The cells first generated in the forebrain of the rat migrate to the surface of the telencephalic vesicle by embryonic day (E) 12. Using [ 3 H]thymidine, we found that most of these cells contributed to the formation of the deep layer III of the primary olfactory cortex. To study the migratory routes of these cells, we made localized injections of the carbocyanine fluorescent tracers DiI and DiA into various parts of the lateral ganglionic eminence in living embryos at E12–E14 and subsequently maintained the embryos in a culture device for 17–48 hr. After fixation, most migrating cells were located at the surface of the telencephalic vesicle, whereas others were seen coursing tangentially into the preplate. Injections made at E13 and in fixed tissue at E15 showed that migrating cells follow radial glial fibers extending from the ventricular zone of the lateral ganglionic eminence to the ventrolateral surface of the telencephalic vesicle. The spatial distribution of radial glial fibers was studied in Golgi preparations, and these observations provided further evidence of the existence of long glial fibers extending from the ventricular zone of the lateral ganglionic eminence to the ventrolateral cortex. We conclude that cells of the primary olfactory cortex derive from the lateral ganglionic eminence and that some early generated cells migrating from the lateral ganglionic eminence transgress the cortico-striatal boundary entering the preplate of the neocortical primordium.read more
Citations
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Cortical neurons arise in symmetric and asymmetric division zones and migrate through specific phases
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Interneuron Migration from Basal Forebrain to Neocortex: Dependence on Dlx Genes
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Evolution of the neocortex: a perspective from developmental biology
TL;DR: How novelties that make us human may have been introduced during evolution are described, based on findings in the embryonic cerebral cortex in different mammalian species.
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Cell migration in the forebrain.
Oscar Marín,John L.R. Rubenstein +1 more
TL;DR: The cellular and molecular mechanisms underlying each of these types of migrations are reviewed and how emerging concepts in neuronal migration are reshaping the understanding of forebrain development in normal and pathological situations are discussed.
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A long, remarkable journey: tangential migration in the telencephalon
Oscar Marín,John L.R. Rubenstein +1 more
TL;DR: Evidence that supports the existence of several tangential migration pathways in the telencephalon is reviewed, and recent findings that describe their regulation are summarized.
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Autoradiographic and histological studies of postnatal neurogenesis. I. A longitudinal investigation of the kinetics, migration and transformation of cells incorporating tritiated thymidine in neonate rats, with special reference to postnatal neurogenesis in some brain regions.
Joseph Altman,Gopal D. Das +1 more
TL;DR: It was established that cells multiplying in the ependymal and subependymal walls of the Olfactory ventricle migrate outward into the olfactory bulb, where they become differentiated into granule cells, and, to a lesser extent, other types of nerve cells of the cerebellar cortex.
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Fluorescent carbocyanine dyes allow living neurons of identified origin to be studied in long-term cultures
Marcia G. Honig,Richard I. Hume +1 more
TL;DR: The results indicate that preganglionic neurons can survive in the absence of their target cells and that several aspects of their differentiation in the presence of target appear normal.