Development of sodium channels during differentiation of chick skeletal muscle in culture. I. Binding studies

Development of sodium channels during differentiation of chick skeletal muscle in culture. I. Binding studies

[125I]Scorpion toxin and [3H]saxitoxin, two neurotoxins that bind specifically to different sites on sodium channels, were used to monitor the development of sodium channels during synchronous differentiation of chick skeletal muscle in culture. [3H]Saxitoxin-binding sites are not detectable in myob...

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Bibliographic Details
Published in:The Journal of neuroscience Vol. 3; no. 5; pp. 995 - 1003
Main Authors: Baumgold, J, Parent, JB, Spector, I
Format: Journal Article
Language:English
Published: United States Soc Neuroscience 01-05-1983
Society for Neuroscience
Subjects:
Amphibian Proteins
Animals
Carrier Proteins - metabolism
Cell Differentiation
Cells, Cultured
Chick Embryo
Ion Channels - drug effects
Ion Channels - physiology
Kinetics
Muscles - embryology
Muscles - physiology
Receptors, Cholinergic - metabolism
Saxitoxin - metabolism
Scorpion Venoms - isolation & purification
Scorpion Venoms - metabolism
Sodium - metabolism
Sodium Channels
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Summary:[125I]Scorpion toxin and [3H]saxitoxin, two neurotoxins that bind specifically to different sites on sodium channels, were used to monitor the development of sodium channels during synchronous differentiation of chick skeletal muscle in culture. [3H]Saxitoxin-binding sites are not detectable in myoblasts. They appear only after myoblasts fuse to form myotubes and increase gradually to reach a maximal value of 58 fmol/mg of protein by 8 days in culture. In contrast, [125I]scorpion toxin-binding sites are first detected during the period of cell fusion and increase after fusion to reach a maximum by 4 days in culture, well before either the maximal value of the [3H]saxitoxin binding or the appearance of fully developed sodium action potentials. Neither [3H]saxitoxin binding nor [125I] scorpion toxin binding affinity changes during development; they have values of 1.4 and 62 nM, respectively. These data, and data described in the companion paper (Baumgold, J., J. B. Parent, and I. Spector (1983) J. Neurosci. 3: 1004-1013), suggest that sodium channel development involves two sequential steps: incorporation into the cell membrane of an immature form of the sodium channel capable of binding scorpion toxin alone, followed by the acquisition of the ability to bind saxitoxin and thus to become a mature and functional channel.
ISSN:0270-6474
1529-2401
DOI:10.1523/jneurosci.03-05-00995.1983