豚鼠和大鼠中谷氨酸对海马锥体细胞的兴奋作用。
Excitation of hippocampal pyramidal cells by glutamate in the guinea-pig and rat.
作者信息
Hablitz J J, Langmoen I A
出版信息
J Physiol. 1982 Apr;325:317-31. doi: 10.1113/jphysiol.1982.sp014152.
Abstract
- The mechanism by which L-glutamic acid depolarizes hippocampal CA1 pyramidal neurones was investigated by using the in vitro slice and ionophoretic techniques. 2. Two types of responses were seen. One (in 85% of cells) consisted of spike discharges that outlasted the glutamate-induced depolarization. In the other (the rest of the cells), spikes were produced only during the rising phase of the depolarization. 3. The effect was highly localized; it disappeared when the ionophoretic electrode was moved vertically by as little as 20 micrometers. 4. The effect of glutamate persisted after synaptic transmission was blocked; this probably was due to a direct effect of glutamate on the cell membrane. 5. Small doses of glutamate produced either no change or an apparent increase in input resistance. With larger doses, the input resistance invariably decreased. The apparent increase in input resistance was not seen in cells treated with Mn2+ and TTX and is believed to be an effect of the depolarization rather than a direct effect of glutamate. 6. By extrapolation, the reversal potential for the glutamate response (EGlu) was found to -3.6 mV. 7. Following intracellular injection of Cs+, neurones could be depolarized to a range of +20 to +50 mV. The glutamate response could then be reversed. EGlu in these cells was -1.5 mV. 8. Using the Cs+-injection technique, it was also possible to reverse the e.p.s.p. E.e.p.s.p. was similar to EGlu. 9. When the external sodium concentration was reduced, the size of the glutamate response decreased, and EGlu became more negative.
摘要
- 采用体外脑片和离子电泳技术,研究了L-谷氨酸使海马CA1锥体神经元去极化的机制。2. 观察到两种类型的反应。一种(85%的细胞)表现为动作电位发放,其持续时间超过谷氨酸诱导的去极化。另一种(其余细胞)仅在去极化的上升期产生动作电位。3. 这种效应高度局限;当离子电泳电极垂直移动仅20微米时,效应就消失了。4. 阻断突触传递后,谷氨酸的效应仍然存在;这可能是由于谷氨酸对细胞膜的直接作用。5. 小剂量谷氨酸对输入电阻要么没有影响,要么使其明显增加。大剂量时,输入电阻总是降低。在用Mn2+和TTX处理的细胞中未观察到输入电阻的明显增加,据信这是去极化的作用而非谷氨酸的直接作用。6. 通过外推法,发现谷氨酸反应的反转电位(EGlu)为-3.6 mV。7. 细胞内注入Cs+后,神经元可被去极化至+20至+50 mV的范围。然后谷氨酸反应可被反转。这些细胞中的EGlu为-1.5 mV。8. 使用Cs+注入技术,也有可能反转兴奋性突触后电位。兴奋性突触后电位的反转电位(E.e.p.s.p.)与EGlu相似。9. 当降低细胞外钠浓度时,谷氨酸反应的幅度减小,且EGlu变得更负。
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