In vitro clonal analysis of progenitor cell patterns in dorsal root and sympathetic ganglia of the quail embryo

In vitro clonal analysis of progenitor cell patterns in dorsal root and sympathetic ganglia of the quail embryo

The possible presence of pluripotent cells in dorsal root (DRG) and sympathetic ganglia (SG) of the quail embryo has been investigated by in vitro clonal analysis. Both types of ganglia originate from the neural crest. At, or soon after, initiation of emigration from the neural tube, the neural cres...

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Bibliographic Details
Published in:Developmental biology Vol. 147; no. 2; pp. 451 - 459
Main Authors: Duff, R.Scott, Langtimm, Carol J., Richardson, Michael K., Sieber-Blum, Maya
Format: Journal Article
Language:English
Published: Amsterdam Elsevier Inc 01-10-1991
Elsevier
Subjects:
Animals
Biological and medical sciences
Cell Differentiation - physiology
Cells, Cultured
Dopamine beta-Hydroxylase - biosynthesis
dorsal root ganglia
Embryology: invertebrates and vertebrates. Teratology
Fluorescent Antibody Technique
Fundamental and applied biological sciences. Psychology
ganglia
Ganglia, Spinal - cytology
Ganglia, Spinal - immunology
Ganglia, Sympathetic - cytology
Ganglia, Sympathetic - immunology
In Vitro Techniques
Lewis X Antigen - biosynthesis
Microscopy, Electron
Neural Crest - cytology
Phenotype
Quail - embryology
Embryonic development
Vertebrata
Embryo
Spinal cord
Central nervous system
Spinal ganglion
Aves
Neural crest
Spinal root
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Summary:The possible presence of pluripotent cells in dorsal root (DRG) and sympathetic ganglia (SG) of the quail embryo has been investigated by in vitro clonal analysis. Both types of ganglia originate from the neural crest. At, or soon after, initiation of emigration from the neural tube, the neural crest appears as a mixed population of pluripotent cells and cells with more restricted developmental capacities. In the present study it was determined that pluripotent cells and precursor cells with restricted developmental potentials are also present in early DRG and SG, and that their proportions change with progressing age of the embryo. As in the neural crest, cells in one class are at least tripotent, able to give rise to pigment cells, sensory neurons, and cells in the sympathoadrenal lineage. Cells in the other class appear to have lost the melanogenic potential, but generate cells in the sensory neuron and sympathoadrenal lineages. In addition, there are two types of cells that seem to be committed to the melanogenic and sensory neuron lineages, respectively. Apparently committed melanogenic cells within the DRG are not detected after the first third of embryonic development, whereas precursor cells that are at least bipotent and generate both types of neurons persist in both DRG and SG at least through the first half of embryonic development. Neurogenic cells that are apparently committed to the sensory neuron or sympathoadrenal lineages were observed in the appropriate type of ganglion only, suggesting that location-specific cues influence the choice of phenotype generated by pluripotent neural crest cells.
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ISSN:0012-1606
1095-564X
DOI:10.1016/0012-1606(91)90303-K