甘氨酸和γ-氨基丁酸对小鼠视网膜离体双极细胞的影响。
Effects of glycine and GABA on isolated bipolar cells of the mouse retina.
作者信息
Suzuki S, Tachibana M, Kaneko A
机构信息
National Institute for Physiological Sciences, Okazaki, Japan.
出版信息
J Physiol. 1990 Feb;421:645-62. doi: 10.1113/jphysiol.1990.sp017967.
Abstract
- Bipolar cells were enzymatically (papain) dissociated from the mouse retina. Responses to exogenously applied glycine and GABA were recorded using the whole-cell voltage clamp method (pipette solution contained 121 mM-Cl-). Both glycine and GABA evoked inward currents in cells voltage clamped at negative membrane voltages (e.g. -60 mV) and superfused with the control solution containing 146 mM-Cl-. 2. Polarities of both glycine- and GABA-induced currents reversed near 0 mV under our control conditions. The reversal potential depended on both external [( Cl-]o) and internal (intrapipette; [Cl-]p) Cl- concentrations, but on neither Na+ nor K+ concentration. The reversal potentials were very close to the calculated equilibrium potential for Cl- estimated by using the Nernst equation with various external and internal Cl- activities. 3. The sensitivity to both glycine and GABA was highest at the axon terminal bulb. 4. Glycine-induced responses were antagonized by 10 nM-strychnine (competitively and non-competitively), but by neither bicuculline nor picrotoxin. GABA-induced responses were antagonized by 30 microM-bicuculline (competitively) and 30 microM-picrotoxin (non-competitively), but not by 100 nM-strychnine. Muscimol was as effective as GABA. Baclofen evoked no response even at 100 microM and did not modulate voltage-dependent Ca2+ current. Pentobarbitone (10 microM) increased the sensitivity to GABA. These observations suggest that glycine and GABA worked on separate receptor molecules and that the receptors for GABA were GABAA type. 5. The present study suggests that glycine and GABA, both putative neurotransmitters of amacrine cells, mediate inhibition of bipolar cells in the mouse retina.
摘要
- 双极细胞通过酶解法(木瓜蛋白酶)从小鼠视网膜中解离出来。使用全细胞膜片钳方法记录对外源性施加的甘氨酸和γ-氨基丁酸(GABA)的反应(移液管溶液含有121 mM-Cl-)。在膜电压钳制在负膜电压(如-60 mV)且用含有146 mM-Cl-的对照溶液灌流的细胞中,甘氨酸和GABA均诱发内向电流。2. 在我们的对照条件下,甘氨酸和GABA诱导的电流极性在接近0 mV时反转。反转电位取决于外部([Cl-]o)和内部(移液管内;[Cl-]p)Cl-浓度,但不取决于Na+或K+浓度。反转电位非常接近使用能斯特方程根据各种外部和内部Cl-活性估算的Cl-计算平衡电位。3. 对甘氨酸和GABA的敏感性在轴突终末球处最高。4. 甘氨酸诱导的反应被10 nM士的宁拮抗(竞争性和非竞争性),但不被荷包牡丹碱或苦味毒拮抗。GABA诱导的反应被30 μM荷包牡丹碱(竞争性)和30 μM苦味毒(非竞争性)拮抗,但不被100 nM士的宁拮抗。蝇蕈醇与GABA一样有效。巴氯芬即使在100 μM时也不诱发反应,并且不调节电压依赖性Ca2+电流。戊巴比妥(10 μM)增加了对GABA的敏感性。这些观察结果表明甘氨酸和GABA作用于不同的受体分子,并且GABA的受体是GABAA型。5. 本研究表明,甘氨酸和GABA这两种假定的无长突细胞神经递质介导小鼠视网膜中双极细胞的抑制作用。
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