猫脊髓运动神经元中Ia相互抑制电流的电压依赖性
Voltage dependence of Ia reciprocal inhibitory currents in cat spinal motoneurones.
作者信息
Stuart G J, Redman S J
机构信息
Division of Neuroscience, John Curtin School of Medical Research, Australian National University, Canberra, ACT.
出版信息
J Physiol. 1990 Jan;420:111-25. doi: 10.1113/jphysiol.1990.sp017903.
Abstract
- Inhibitory postsynaptic currents (IPSCs) were recorded in voltage clamped posterior biceps or semitendinosus motoneurones of the cat during reciprocal inhibition. 2. Population IPSCs, recorded following stimulation of the whole quadriceps muscle nerve, had an average time-to-peak of 0.51 +/- 0.02 ms (+/- S.E.M., n = 22) and decayed exponentially, with an average time constant of 0.99 +/- 0.04 ms (at 37 degrees C) at resting membrane potentials. 3. Unitary IPSCs, recorded following spike-triggered averaging from an identified reciprocal inhibitory interneurone, had amplitudes of 120-220 pA with an average time-to-peak of 0.40 +/- 0.06 ms (n = 5). The decay of these unitary currents was exponential, with an average time constant of 0.82 +/- 0.07 ms (at 37 degrees C) at resting membrane potentials. 4. The time course of IPSCs was unaffected by either alpha-chloralose or pentobarbitone at concentrations necessary for deep anaesthesia. 5. The peak synaptic current varied linearly with the membrane potential over the range -90 to -30 mV, and had an average reversal potential of -80.7 +/- 1.5 mV (+/- S.E.M., n = 6) when measured using KCH3SO4-filled electrodes. 6. The reversal potential for the IPSC was used to calculate [Cl-]i. This was estimated to be 6.5 mM assuming that the inhibitory synaptic current was mediated purely by Cl- ions. 7. The rate at which synaptic currents decayed was exponentially dependent on the postsynaptic membrane potential, the decay time constant increasing e-fold for a 91 mV depolarization. This result was independent of [Cl-]i or of the magnitude of the synaptic conductance and was interpreted as a voltage dependence of the glycine channel open time. 8. The average unitary peak conductance was 9.1 +/- 1.7 nS (+/- S.E.M., n = 5), corresponding to the opening of approximately 200 glycine-activated postsynaptic channels following neurotransmitter release from a single Ia reciprocal interneurone.
摘要
- 在猫的相互抑制过程中,于电压钳制的肱二头肌后部或半腱肌运动神经元中记录抑制性突触后电流(IPSCs)。2. 刺激整个股四头肌神经后记录的群体IPSCs,其平均峰值时间为0.51±0.02毫秒(±标准误,n = 22),呈指数衰减,在静息膜电位下平均时间常数为0.99±0.04毫秒(37℃时)。3. 从一个已识别的相互抑制性中间神经元通过触发尖峰平均法记录的单突触IPSCs,其幅度为120 - 220皮安,平均峰值时间为0.40±0.06毫秒(n = 5)。这些单突触电流的衰减是指数性的,在静息膜电位下平均时间常数为0.82±0.07毫秒(37℃时)。4. 在深度麻醉所需浓度下,α - 氯醛糖或戊巴比妥对IPSCs的时间进程均无影响。5. 在 - 90至 - 30毫伏范围内,突触电流峰值随膜电位呈线性变化,当使用充KCH3SO4的电极测量时,其平均反转电位为 - 80.7±1.5毫伏(±标准误,n = 6)。6. IPSC的反转电位用于计算[Cl - ]i。假设抑制性突触电流纯粹由Cl - 离子介导,则估计其为6.5毫摩尔。7. 突触电流的衰减速率呈指数依赖于突触后膜电位,对于91毫伏的去极化,衰减时间常数增加e倍。该结果与[Cl - ]i或突触电导大小无关,被解释为甘氨酸通道开放时间的电压依赖性。8. 平均单突触峰值电导为9.1±l.7纳西门子(±标准误,n = 5),对应于单个Ia类相互抑制性中间神经元释放神经递质后约200个甘氨酸激活的突触后通道的开放。
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