大鼠视觉皮层中间神经元和锥体细胞中GABAA受体介导的电流
GABAA receptor-mediated currents in interneurons and pyramidal cells of rat visual cortex.
作者信息
Xiang Z, Huguenard J R, Prince D A
机构信息
Department of Neurology and Neurological Sciences, Stanford University Medical Center, CA 94305, USA.
出版信息
J Physiol. 1998 Feb 1;506 ( Pt 3)(Pt 3):715-30. doi: 10.1111/j.1469-7793.1998.715bv.x.
Abstract
- We compared gamma-aminobutyric acid (GABA)-mediated responses of identified pyramidal cells and fast spiking interneurons in layer V of visual cortical slices from young rats (P11-14). 2. The frequency of spontaneous inhibitory postsynaptic currents (sIPSCs) was similar in pyramidal cells and interneurons (1.7 vs. 1.9 Hz). For events with 10-90% rise times less than 0.9 ms, no significant differences were found in mean amplitude (61 vs. 65 pA), mean rise time (0.58 vs. 0.61 ms), or the first time constant of decay (tau 1, 6.4 vs. 6.5 ms) between pyramidal cells and interneurons. The second decay time constant (tau 2) was significantly longer in interneurons than in pyramidal cells (49 vs. 22 ms). The difference in sIPSC decay kinetics between two cell types also existed in adult rats (P36-42), suggesting the kinetic difference in not due to differential development of GABAA receptors in these cell types. 3. The decay kinetics of monosynaptic evoked IPSCs were also longer in interneurons. As in the case of sIPSCs, the difference was accounted for by the second decay time constant. tau 1 and tau 2 were, respectively, 13 and 64 ms for interneurons and 12 and 47 ms for pyramidal cells. 4. Cell-attached patch recordings revealed that the mean open time for single Cl- channels in response to 2 microM GABA was significantly longer in interneurons than pyramidal cells (5.0 vs. 2.8 ms). The chord conductance of these channels in interneurons (12 pS) was significantly smaller than in pyramidal cells (15 pS). Single channel currents reversed polarity when the pipette potential was approximately -10 mV for both cell types. 5. These results show that there is a functional diversity of GABAA receptors in electrophysiologically and morphologically identified cortical pyramidal cells and interneurons. This diversity might derive from the different molecular composition of the receptors in these two cell types.
摘要
- 我们比较了幼鼠(P11 - 14)视觉皮层切片V层中已鉴定的锥体细胞和快速放电中间神经元的γ-氨基丁酸(GABA)介导的反应。2. 锥体细胞和中间神经元的自发抑制性突触后电流(sIPSCs)频率相似(1.7对1.9 Hz)。对于上升时间10 - 90%小于0.9 ms的事件,锥体细胞和中间神经元在平均幅度(61对65 pA)、平均上升时间(0.58对0.61 ms)或第一个衰减时间常数(tau 1,6.4对6.5 ms)上未发现显著差异。中间神经元的第二个衰减时间常数(tau 2)显著长于锥体细胞(49对22 ms)。两种细胞类型之间sIPSC衰减动力学的差异在成年大鼠(P36 - 42)中也存在,表明这种动力学差异并非由于这些细胞类型中GABAA受体的不同发育所致。3. 中间神经元中单突触诱发的IPSCs的衰减动力学也更长。与sIPSCs情况一样,差异由第二个衰减时间常数解释。中间神经元的tau 1和tau 2分别为13和64 ms,锥体细胞的tau 1和tau 2分别为12和47 ms。4. 细胞贴附式膜片钳记录显示,响应2 microM GABA时,中间神经元中单个Cl-通道的平均开放时间显著长于锥体细胞(5.0对2.8 ms)。这些通道在中间神经元中的弦电导(12 pS)显著小于锥体细胞(15 pS)。对于两种细胞类型,当移液器电位约为 - 10 mV时,单通道电流反转极性。5. 这些结果表明,在电生理和形态学上已鉴定的皮层锥体细胞和中间神经元中,GABAA受体存在功能多样性。这种多样性可能源于这两种细胞类型中受体的不同分子组成。
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