摘要：

CA1 pyramidal neurons in the hippocampus die 2–3 days following transient forebrain ischemia, whereas CA3 pyramidal neurons and granule cells in the dentate gyrus remain viable. Excitotoxicity is the major cause of ischemic cell death, and potassium currents play important roles in regulating the neuronal excitability. The present study compared the changes of potassium currents in acutely dissociated hippocampal neurons at different intervals after ischemia. In CA1 neurons, the amplitude of rapid inactivating potassium currents ( I A) was significantly increased at 14 h and returned to control levels at 38 h after ischemia; the rising slope and decay time constant of I A were accordingly increased after ischemia. The activation curve of I A in CA1 neurons shifted to the depolarizing direction at 38 h after ischemia. In granule cells, the amplitude and rising slope of I A were significantly increased at 38 h after ischemia; the inactivation curves of I A shifted toward the depolarizing direction accordingly at 38 h after ischemia. The I A remained unchanged in CA3 neurons after ischemia. The amplitudes of delayed rectifier potassium currents ( I Kd) in CA1 neurons were progressively increased after ischemia. No significant difference in I Kd was detected in CA3 and granule cells at any time points after reperfusion. These results indicated that the voltage dependent potassium currents in hippocampal neurons were differentially altered after cerebral ischemia. The up-regulation of I A in dentate granule cells might have protective effects. The increase of I Kd in CA1 neurons might be associated with the neuronal damage after ischemia.

展开