Neuronal maturation in mammalian cell culture is dependent on spontaneous electrical activity
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Differential effect of D623N variant and wild-type Na<inf>v</inf>1.7 sodium channels on resting potential and interspike membrane potential of dorsal root ganglion neurons
2013, Brain ResearchCitation Excerpt :In the present study, current-clamp analysis demonstrated that blockade of TTX-S channels including Nav1.7 by 1 µM TTX results in a hyperpolarizing shift in resting membrane potential, an increase in current threshold and a decrease in firing frequency of DRG neurons expressing D623N channels, whereas it did not significantly change resting membrane potential or firing properties of DRG neurons expressing WT Nav1.7 channels. Consistent with the latter result, Bergey et al. (1981) observed that resting potential of DRG neurons was not affected by exposure to 1 µM TTX. TTX decreased NMDG-induced hyperpolarization in DRG neurons expressing D623N channels, but not in DRG neurons expressing WT channels.
Activity-dependent neuronal control of gap-junctional communication in fibroblasts
2009, Brain ResearchCitation Excerpt :Our study demonstrates an activity-dependent neuronal regulation of fibroblast GJC. DRG neurons in vivo or in vitro exhibit spontaneous electrical activity (Bergey et al., 1981; Mathers and Barker, 1984; Russell and Burchiel, 1988; Kajander et al., 1992; Beaudu et al., 2000). Using patch-clamp recordings of DRG neurons, we showed that DRG neurons exhibit spontaneous action potentials.
The formation of glutamatergic synapses in cultured central neurons: selective increase in miniature synaptic currents
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1994, Progress in Brain ResearchEffects of spontaneous bioelectric activity and gangliosides on cell survival in vitro
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