Myelin-Specific Proteins and Glycolipids in Rat Schwann Cells and Oligodendrocytes in Culture

Myelin-Specific Proteins and Glycolipids in Rat Schwann Cells and Oligodendrocytes in Culture

We have used antibodies to identify Schwann cells and oligodendrocytes and to study the expression of myelin-specific glycolipids and proteins in these cells isolated from perinatal rats. Our findings suggest that only Schwann cells which have been induced to myelinate make detectable amounts of gal...

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Bibliographic Details
Published in:The Journal of cell biology Vol. 84; no. 3; pp. 483 - 494
Main Authors: Mirsky, Rhona, Winter, Janet, Abney, Erika R., Pruss, Rebecca M., Gavrilovic, Jelena, Raff, Martin C.
Format: Journal Article
Language:English
Published: United States Rockefeller University Press 01-03-1980
The Rockefeller University Press
Subjects:
Aging
Animals
Antibodies
Cells
Cells, Cultured
Cultured cells
Galactosylceramides - biosynthesis
Ganglia, Spinal - cytology
Ganglia, Sympathetic - cytology
Glycolipids
Glycolipids - biosynthesis
Myelin
Myelin Proteins - biosynthesis
Nerves
Neuroglia - metabolism
Neurons
Oligodendroglia
Oligodendroglia - cytology
Oligodendroglia - metabolism
Rats
Schwann cells
Schwann Cells - cytology
Schwann Cells - metabolism
Sciatic nerve
Sciatic Nerve - cytology
Sulfoglycosphingolipids - metabolism
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Summary:We have used antibodies to identify Schwann cells and oligodendrocytes and to study the expression of myelin-specific glycolipids and proteins in these cells isolated from perinatal rats. Our findings suggest that only Schwann cells which have been induced to myelinate make detectable amounts of galactocerebroside (GC), sulfatide, myelin basic protein (BP), or the major peripheral myelin glycoprotein ( P0). When rat Schwann cells were cultured, they stopped making detectable amounts of these myelin molecules, even when the cells were associated with neurites in short-term explant cultures of dorsal root ganglion. In contrast, oligodendrocytes in dissociated cell cultures of neonatal optic nerve, corpus callosum, or cerebellum continued to make GC, sulfatide and BP for many weeks, even in the absence of neurons. These findings suggest that while rat Schwann cells require a continuing signal from appropriate axons to make detectable amounts of myelin-specific glycolipids and proteins, oligodendrocytes do not. Schwann cells and oligodendrocytes also displayed very different morphologies in vitro which appeared to reflect their known differences in myelinating properties in vivo. Since these characteristic morphologies were maintained when Schwann cells and oligodendrocytes were grown together in mixed cultures and in the absence of neurons, we concluded that they are intrinsic properties of these two different myelin-forming cells.
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ISSN:0021-9525
1540-8140
DOI:10.1083/jcb.84.3.483