小鼠蜗神经背核神经元的内在特性,体外研究
Intrinsic properties of neurones in the dorsal cochlear nucleus of mice, in vitro.
作者信息
Hirsch J A, Oertel D
机构信息
Department of Neurophysiology, University of Wisconsin, Madison 53706.
出版信息
J Physiol. 1988 Feb;396:535-48. doi: 10.1113/jphysiol.1988.sp016976.
Abstract
- Intracellular recordings were made from the dorsal cochlear nucleus (DCN) in slices of the cochlear nuclear complex. Probably the larger and most frequent cells were impaled. 2. The steady-state current-voltage (I-V) properties of all cells impaled were nonlinear. The I-V curve was steepest in the voltage range depolarized from the resting potential and most shallow when the cell was hyperpolarized from rest by more than about 10 mV. Thus, the inwardly rectifying I-V characteristics of cells in the DCN distinguish them from those of ventral cochlear nuclear neurones (Oertel, 1983). 3. When depolarized with current, most cells fired trains of large, all-or-none action potentials. The undershoot after single spikes comprised an initial, fast component followed by a second, slower wave. A few cells (15%) generated bursts of smaller, graded spikes in addition to the large ones. 4. Repetitive firing evoked by depolarizing pulses of current was followed by an after-hyperpolarization whose magnitude depended on the strength and duration of the preceding current pulse. 5. Blocking the large action potentials with tetrodotoxin (TTX) revealed Ca2+-dependent spikes in all cells examined. 6. The steady-state I-V relationship became linear in the presence of TTX, suggesting that a persistent Na+ conductance probably mediates the inward rectification seen above the resting potential. 7. Muscarine at micromolar concentrations excited cells and increased their input resistance.
摘要
- 在耳蜗核复合体切片中,从背侧耳蜗核(DCN)进行细胞内记录。可能刺入的是较大且最常见的细胞。2. 所有被刺入细胞的稳态电流-电压(I-V)特性均为非线性。I-V曲线在从静息电位去极化的电压范围内最陡,而当细胞从静息状态超极化超过约10 mV时最平缓。因此,DCN中细胞的内向整流I-V特性将它们与腹侧耳蜗核神经元的特性区分开来(奥特尔,1983年)。3. 当用电流去极化时,大多数细胞发放一连串大的、全或无的动作电位。单个动作电位后的负后电位包括一个初始的快速成分,随后是第二个较慢的波。少数细胞(15%)除了发放大的动作电位外,还产生较小的分级电位发放。4. 由去极化电流脉冲诱发的重复发放之后是一个超极化后电位,其幅度取决于先前电流脉冲的强度和持续时间。5. 用河豚毒素(TTX)阻断大的动作电位后,在所检查的所有细胞中均显示出钙依赖性动作电位。6. 在TTX存在下,稳态I-V关系变为线性,这表明持续的钠电导可能介导了静息电位以上所见的内向整流。7. 微摩尔浓度的毒蕈碱可使细胞兴奋并增加其输入电阻。
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