Rutecki P A, Lebeda F J, Johnston D
J Neurophysiol. 1987 Jun;57(6):1911-24. doi: 10.1152/jn.1987.57.6.1911.
Using extra- and intracellular recording techniques, we investigated the epileptiform activity induced by low concentrations (5 and 10 microM) of bath-applied 4-aminopyridine (4-AP) in the CA3 subfield of rat hippocampal slices. We also studied the effects of 4-AP on the excitatory and inhibitory synaptic conductance changes in CA3 neurons produced by mossy fiber stimulation. Low concentrations of 4-AP induced spontaneously occurring epileptiform discharges at extracellular potassium concentrations between 1 and 10 mM. In contrast, picrotoxin and bicuculline produced spontaneous epileptiform discharges at extracellular potassium concentrations between 5 and 10 mM. The paroxysmal depolarizing shift (PDS) induced by 4-AP was also investigated. At potentials between -40 and -10 mV, the waveform of the PDS consisted of a depolarizing component enveloped by a hyperpolarizing component. The amplitude of the depolarizing component of the PDS was a monotonic function of the membrane potential, and the mean measured reversal potential was -25.7 mV. Under voltage-clamp conditions, the measured conductance associated with the depolarizing component of the PDS averaged 110 nS, with a reversal potential of -14.1 mV. Application of 5 microM 4-AP produced an increase in the inhibitory synaptic conductance change calculated from currents measured 15 ms following mossy fiber stimulation. The mean value increased from 35.2 to 58.1 nS (P less than 0.05) without a significant change in reversal potential. A concentration of 10 microM 4-AP also produced an increase in this inhibitory synaptic conductance change (from 53.3 to 66.3 nS, P less than 0.05) but caused a significant depolarization of the reversal potential (from -66.5 to -61.6 mV, P less than 0.05). This change in reversal potential may reflect a prolongation of the excitatory synaptic currents produced by 4-AP that contributes to the current measured 15 ms from the stimulus. Following application of either 5 or 10 microM 4-AP, there were no significant changes in the resting potential or input resistance of the neurons studied. Application of 5 microM 4-AP also significantly increased the amplitude of the measured excitatory synaptic conductance change produced by mossy fiber stimulation (from 27.9 to 44.1 nS, P less than 0.05) without producing a change in the reversal potential. In 5 of 21 neurons studied, a long-lasting outward synaptic current was present at holding potentials near rest following mossy fiber stimulation.(ABSTRACT TRUNCATED AT 400 WORDS)
运用细胞外和细胞内记录技术,我们研究了在大鼠海马切片CA3亚区中,通过浴加低浓度(5和10微摩尔)的4-氨基吡啶(4-AP)所诱导的癫痫样活动。我们还研究了4-AP对苔藓纤维刺激所产生的CA3神经元兴奋性和抑制性突触电导变化的影响。低浓度的4-AP在细胞外钾浓度为1至10毫摩尔时诱发自发性癫痫样放电。相比之下,印防己毒素和荷包牡丹碱在细胞外钾浓度为5至10毫摩尔时产生自发性癫痫样放电。我们还研究了4-AP所诱导的阵发性去极化偏移(PDS)。在-40至-10毫伏的电位之间,PDS的波形由一个去极化成分和一个超极化成分组成。PDS去极化成分的幅度是膜电位的单调函数,测得的平均反转电位为-25.7毫伏。在电压钳制条件下,与PDS去极化成分相关的测得电导平均为110纳西门子,反转电位为-14.1毫伏。施加5微摩尔的4-AP会使根据苔藓纤维刺激后15毫秒测得的电流计算出的抑制性突触电导变化增加。平均值从35.2增加到58.1纳西门子(P小于0.05),反转电位无显著变化。10微摩尔的4-AP浓度也会使这种抑制性突触电导变化增加(从53.3增加到66.3纳西门子,P小于0.05),但会导致反转电位显著去极化(从-66.5到-61.6毫伏,P小于0.05)。这种反转电位的变化可能反映了4-AP所产生的兴奋性突触电流的延长,这有助于在刺激后15毫秒测得的电流。施加5或10微摩尔的4-AP后,所研究神经元的静息电位或输入电阻均无显著变化。施加5微摩尔的4-AP还会显著增加苔藓纤维刺激所产生的测得兴奋性突触电导变化的幅度(从27.9增加到44.1纳西门子,P小于0.05),而反转电位无变化。在所研究的21个神经元中的5个中,在苔藓纤维刺激后接近静息的钳制电位下存在持久的外向突触电流。(摘要截短至400字)
