The effect of prolonged (72 h) ethanol (200 mM) exposure on the labeling of L-type (using tritiated PN 200-110) and N-type (using iodinated omega-conotoxin) voltage-dependent calcium channels was investigated in cultured NG 108-15 cells. In undifferentiated cells ethanol produced an 80% increase in PN 200-110 B-max and no changes in omega-conotoxin binding. Differentiation had a profound effect on the response of cells to ethanol, which in differentiated neuron-like cells decreased omega-conotoxin binding (-53.5%) leaving PN 200-110 labeling of L-type channels unaffected. The effect was time dependent and reversible upon ethanol withdrawal. The decreased omega-conotoxin binding was accompanied by a reduced ability of omega-conotoxin to inhibit K+-stimulated calcium uptake. The results demonstrate that in cultured NG 108-15 cells ethanol differentially affects DHP and omega-conotoxin-sensitive, voltage-dependent calcium channels and that the effect is also modulated by differentiation of the cell to a neuronal phenotype.

Bergamaschi, S., Battaini, F.m., Trabucchi, M.m., Parenti, M., Lopez, C.m., Govoni, S. (1995). Neuronal differentiation modifies the effect of ethanol exposure on voltage-dependent calcium channels in NG 108-15 cells. ALCOHOL, 12(6), 497-503 [10.1016/0741-8329(95)00024-0].

Neuronal differentiation modifies the effect of ethanol exposure on voltage-dependent calcium channels in NG 108-15 cells

BATTAINI, FIORENZO MARIA;TRABUCCHI, MARCO MARIO;
1995-01-01

Abstract

The effect of prolonged (72 h) ethanol (200 mM) exposure on the labeling of L-type (using tritiated PN 200-110) and N-type (using iodinated omega-conotoxin) voltage-dependent calcium channels was investigated in cultured NG 108-15 cells. In undifferentiated cells ethanol produced an 80% increase in PN 200-110 B-max and no changes in omega-conotoxin binding. Differentiation had a profound effect on the response of cells to ethanol, which in differentiated neuron-like cells decreased omega-conotoxin binding (-53.5%) leaving PN 200-110 labeling of L-type channels unaffected. The effect was time dependent and reversible upon ethanol withdrawal. The decreased omega-conotoxin binding was accompanied by a reduced ability of omega-conotoxin to inhibit K+-stimulated calcium uptake. The results demonstrate that in cultured NG 108-15 cells ethanol differentially affects DHP and omega-conotoxin-sensitive, voltage-dependent calcium channels and that the effect is also modulated by differentiation of the cell to a neuronal phenotype.
1995
Pubblicato
Rilevanza internazionale
Articolo
Sì, ma tipo non specificato
Settore BIO/14 - FARMACOLOGIA
English
Con Impact Factor ISI
ETHANOL; CALCIUM CHANNELS; NG 108-15; CELL CULTURE; NEURONAL DIFFERENTIATION; OMEGA-CONOTOXIN; PN200-110
Bergamaschi, S., Battaini, F.m., Trabucchi, M.m., Parenti, M., Lopez, C.m., Govoni, S. (1995). Neuronal differentiation modifies the effect of ethanol exposure on voltage-dependent calcium channels in NG 108-15 cells. ALCOHOL, 12(6), 497-503 [10.1016/0741-8329(95)00024-0].
Bergamaschi, S; Battaini, Fm; Trabucchi, Mm; Parenti, M; Lopez, Cm; Govoni, S
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/51570
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