Voltage-sensitive Calcium Channels Mediate Calcium Entry into Cultured Mammalian Sympathetic Neurons Following Neurite Transection
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Calcium ion entry following mechanical neurite transection was examined in cultured sympathetic neurons loaded with the Ca2+ indicator fluo-3. Neurite transection produced a rapid [Ca2+]i rise in the cell soma which preceded any [Ca2+]i rise in the neurite (n = 30). Blocking sodium channels with tetrodotoxin had no effect on the Ca2+ rise, but inactivating voltage-sensitive Ca2+ channels by bath-applying 140 mM potassium prior to the transection, and the simultaneous application of nimodipine and omega-conotoxin GVIA, blockers of L-type and N-type Ca2+ channels, respectively, considerably attenuated the Ca2+ rise in the soma and neurites. These data contradict the intuitive hypothesis that Ca2+ entry following mechanical neurite transection occurs via non-specific influx pathways produced by cell-membrane disruption and provide direct evidence in mammalian neurons that immediate, traumatically-induced, increases in neuronal [Ca2+]i are amenable to pharmacological manipulation.
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