Chloramine-T-induced modifications of K+channel inactivation in neuroblastoma cells

The effects of chloramine-T (CL-T) on voltagedependent potassium channels in neuroblastoma cells were analysed using the whole-cell current recording technique. CL-T irreversibly decreased the peak whole -cell K current, considerably slowed its inactivation and shifted its activation-voltage curve t

The effects of fatty acids on voltage-dependent potassium (K § channels in neuroblastoma cells were studied using the whole-cell current recording technique. At a concentration of 5 ~tM, unsaturated and medium chain length (C10-C14) saturated fatty acids accelerated the apparent inactivation of the

The steady-state effects and rate of action of 4-aminopyridine (4-AP) on normal and chloramine-T (CL-T)-modified voltage-dependent potassium (K) currents were studied in neuroblastoma cells with the whole-cell voltage-clamp current recording technique. 4-AP apparently slows both the activation and i

Patch-clamp experiments were done on sodium channels of neuroblastoma cells (N1E-115) in the presence of tetraethylammonium ions to block potassium channels. In Ringer solution whole-cell records revealed a diphasic INa inactivation with the fast (tau 0) component. being clearly larger than the slow