Takahashi Ayako, Tokunaga Atsushi, Yamanaka Hiroki, Mashimo Takashi, Noguchi Koichi, Uchida Ichiro
Department of Anesthesiology, Osaka University Graduate School of Medicine, 2-2 Yamada-oka, Suita, Osaka 565-0871, Japan.
Eur J Pharmacol. 2006 Dec 28;553(1-3):120-8. doi: 10.1016/j.ejphar.2006.09.047. Epub 2006 Sep 28.
The physiological and pharmacological properties of gamma-aminobutyric acid (GABA)ergic miniature inhibitory postsynaptic currents (mIPSCs) were investigated in substantia gelatinosa neurons of mouse spinal cord using whole-cell patch clamp recordings. Two cell populations were pharmacologically identified based on the effect of propofol (10 muM) on the mIPSC decay kinetics: those exhibiting propofol-sensitive mIPSCs, with a slow decay kinetic (mIPSC(SLOW)), and those exhibiting propofol-resistant mIPSCs, with a fast decay kinetic (mIPSC(FAST)) (decay time constants of 14.2+/-0.7 and 7.4+/-0.8 ms, respectively). The frequency and amplitude of both types of mIPSCs were not affected by propofol. Miniature IPSC(FAST) showed midazolam insensitivity, while midazolam prolonged the decay phase of mIPSC(SLOW) without modulation of the frequency and amplitude. Exogenous GABA-evoked responses in the neurons with mIPSC(SLOW) were potentiated by propofol, while those in neurons with mIPSC(FAST) were unaffected by propofol. Furthermore, non-stationary noise analysis of the two kinetically and pharmacologically distinct mIPSCs revealed different conductance of GABA(A) receptor channels underlying the synaptic events. Pharmacological responses to propofol and midazolam suggested that mIPSC(FAST) and mIPSC(SLOW) in substantia gelatinosa neurons can be mediated by GABA(A) receptors with different subunit compositions.
利用全细胞膜片钳记录技术,在小鼠脊髓胶状质神经元中研究了γ-氨基丁酸(GABA)能微小抑制性突触后电流(mIPSCs)的生理和药理特性。根据丙泊酚(10 μM)对mIPSC衰减动力学的影响,从药理学角度鉴定出两类细胞群体:一类表现出对丙泊酚敏感的mIPSCs,具有缓慢的衰减动力学(mIPSC(SLOW));另一类表现出对丙泊酚耐药的mIPSCs,具有快速的衰减动力学(mIPSC(FAST))(衰减时间常数分别为14.2±0.7和7.4±0.8毫秒)。两类mIPSCs的频率和幅度均不受丙泊酚影响。微小IPSC(FAST)对咪达唑仑不敏感,而咪达唑仑延长了mIPSC(SLOW)的衰减期,对频率和幅度无调节作用。丙泊酚增强了具有mIPSC(SLOW)的神经元中外源性GABA诱发的反应,而具有mIPSC(FAST)的神经元中外源性GABA诱发的反应不受丙泊酚影响。此外,对这两种在动力学和药理学上不同的mIPSCs进行的非平稳噪声分析揭示了突触事件背后GABA(A)受体通道的不同电导。对丙泊酚和咪达唑仑的药理学反应表明,脊髓胶状质神经元中的mIPSC(FAST)和mIPSC(SLOW)可能由具有不同亚基组成的GABA(A)受体介导。
