Aging is associated with an increase in dye coupling and in gap junction number in satellite glial cells of murine dorsal root ganglia

Glial cells in both central and peripheral nervous systems are connected by gap junctions, which allow electrical and metabolic coupling between them. In spite of the great current interest in aging of the nervous system, the effect of aging on glial cell coupling received little attention. We exami...

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Bibliographic Details
Published in:Neuroscience 2006, Vol.137 (4), p.1185-1192
Main Authors: Huang, T.Y., Hanani, M., Ledda, M., De Palo, S., Pannese, E.
Format: Article
Language:English
Subjects:
Aging - physiology
Animals
Biological and medical sciences
Carbenoxolone - pharmacology
Coloring Agents
Female
Fundamental and applied biological sciences. Psychology
Ganglia, Spinal - cytology
Ganglia, Spinal - growth & development
Ganglia, Spinal - physiology
Gap Junctions - drug effects
Gap Junctions - physiology
intercellular junctions
Isolated neuron and nerve. Neuroglia
Male
Mice
Mice, Inbred BALB C
Microscopy, Confocal
Neuroglia - physiology
neuron–glia interactions
peripheral neuroglia
senescence
spinal ganglia
Vertebrates: nervous system and sense organs
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Summary:Glial cells in both central and peripheral nervous systems are connected by gap junctions, which allow electrical and metabolic coupling between them. In spite of the great current interest in aging of the nervous system, the effect of aging on glial cell coupling received little attention. We examined coupling between satellite glial cells in murine dorsal root ganglia using the dye coupling technique and electron microscopy. We studied mice at ages of postnatal 90–730 days. Dye coupling incidence between satellite glial cells associated with a single neuron increased from 24.2% at postnatal day 90 to 50.5% at postnatal day 730. Dye coupling between satellite glial cells that are in contact with two or more neurons increased from 2.7% at postnatal day 90 to 18.6% at postnatal day 730 (P
ISSN:0306-4522
1873-7544
DOI:10.1016/j.neuroscience.2005.10.020