大鼠小脑2型星形胶质细胞和颗粒细胞中非NMDA受体通道的比较。
A comparison of non-NMDA receptor channels in type-2 astrocytes and granule cells from rat cerebellum.
作者信息
Wyllie D J, Cull-Candy S G
机构信息
Department of Pharmacology, University College, London.
出版信息
J Physiol. 1994 Feb 15;475(1):95-114. doi: 10.1113/jphysiol.1994.sp020052.
Abstract
- Patch-clamp recording methods have been used to compare the pharmacological properties and single-channel characteristics of non-NMDA receptor channels in cerebellar type-2 astrocytes and granule cells. 2. In type-2 astrocytes whole-cell concentration-response curves for glutamate, quisqualate, AMPA and kainate gave EC50 values of 5.8, 3.8, 7.6 and 160 microM and Hill slopes of 1.65, 1.18, 1.64 and 1.65, respectively, resembling estimates for granule cell receptors. 3. The non-NMDA receptor antagonists CNQX and diCl-HQC (see Methods) inhibited whole-cell kainate currents in both cell types. The IC50 for CNQX antagonism of the kainate response was 536 nM in type-2 astrocytes, and 500 nM in granule cells. The IC50 for diCl-HQC was 3.5 microM in astrocytes and 3.7 microM in granule cells. 4. CNQX acted as a competitive antagonist of whole-cell kainate responses in type-2 astrocytes and granule cells giving Schild plots with a slope near 1. The equilibrium constant, K, for CNQX binding was 524 nM in astrocytes and 489 nM in granule cells. 5. Quisqualate and AMPA responses showed rapid desensitization in type-2 astrocytes with a ratio of steady-state to peak response of 0.09. Concanavalin A reduced this desensitization. 6. Non-NMDA channels in type-2 astrocytes and granule cells showed a low permeability to Ca2+ ions with a reversal potential, for kainate-activated whole-cell currents in isotonic Ca2+, of approximately -25 mV for astrocytes and -45 mV for granule cells. 7. Outside-out patches from type-2 astrocytes exhibited a range of single-channel conductances that were superficially similar to the glutamate-activated conductances in granule cells. However, the type-2 astrocytes were devoid of NMDA receptors, hence all of these conductances originated from non-NMDA channels. Their slope conductances were approximately 11, 21, 32, 42 and 52 pS. Amplitudes were verified with mean low-variance plots and single-channel current-voltage curves, which were linear. 8. There was also evidence of lower conductance kainate-activated channels in astrocyte patches. From noise analysis their estimated mean conductance was 1.9 pS, as described for the 'low-conductance' type kainate responses in cerebellar neurones. 9. Apparent open times, shut times and burst lengths of AMPA-activated (3-10 microM) channels were examined in patches from type-2 astrocytes, and kinetic properties of the 40 and 50 pS levels were compared with the lower levels. 10. Our results indicate some marked pharmacological similarities between non-NMDA receptor channels in type-2 astrocytes and granule cells.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
- 膜片钳记录方法已被用于比较小脑2型星形胶质细胞和颗粒细胞中非NMDA受体通道的药理学特性和单通道特征。2. 在2型星形胶质细胞中,谷氨酸、quisqualate、AMPA和海人藻酸的全细胞浓度-反应曲线的EC50值分别为5.8、3.8、7.6和160微摩尔,希尔系数分别为1.65、1.18、1.64和1.65,类似于颗粒细胞受体的估计值。3. 非NMDA受体拮抗剂CNQX和二氯-HQC(见方法)抑制了两种细胞类型中的全细胞海人藻酸电流。CNQX拮抗海人藻酸反应的IC50在2型星形胶质细胞中为536纳摩尔,在颗粒细胞中为500纳摩尔。二氯-HQC的IC50在星形胶质细胞中为3.5微摩尔,在颗粒细胞中为3.7微摩尔。4. CNQX在2型星形胶质细胞和颗粒细胞中作为全细胞海人藻酸反应的竞争性拮抗剂,Schild图的斜率接近1。CNQX结合的平衡常数K在星形胶质细胞中为524纳摩尔,在颗粒细胞中为489纳摩尔。5. Quisqualate和AMPA反应在2型星形胶质细胞中表现出快速脱敏,稳态与峰值反应的比率为0.09。伴刀豆球蛋白A减少了这种脱敏。6. 2型星形胶质细胞和颗粒细胞中的非NMDA通道对Ca2+离子的通透性较低,在等渗Ca2+中,海人藻酸激活的全细胞电流的反转电位,星形胶质细胞约为-25毫伏,颗粒细胞约为-45毫伏。7. 2型星形胶质细胞的外向膜片显示出一系列单通道电导,表面上类似于颗粒细胞中谷氨酸激活的电导。然而,2型星形胶质细胞缺乏NMDA受体,因此所有这些电导都来自非NMDA通道。它们的斜率电导约为11、21、32、42和52皮安。振幅通过平均低方差图和单通道电流-电压曲线进行验证,这些曲线是线性的。8. 在星形胶质细胞膜片中也有证据表明存在较低电导的海人藻酸激活通道。通过噪声分析,其估计的平均电导为1.9皮安,如小脑神经元中“低电导”型海人藻酸反应所述。9. 在2型星形胶质细胞的膜片中检查了AMPA激活(3-10微摩尔)通道的表观开放时间、关闭时间和爆发长度,并将40和50皮安水平的动力学特性与较低水平进行了比较。10. 我们的结果表明,2型星形胶质细胞和颗粒细胞中的非NMDA受体通道之间存在一些显著的药理学相似性。(摘要截断于400字)
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