去极化诱发培养的大鼠感觉神经元钙瞬变后的钙离子外流机制
Ca2+ efflux mechanisms following depolarization evoked calcium transients in cultured rat sensory neurones.
作者信息
Benham C D, Evans M L, McBain C J
机构信息
Department of Pharmacology, Smith, Kline & French Research Ltd., Welwyn, Herts.
出版信息
J Physiol. 1992 Sep;455:567-83. doi: 10.1113/jphysiol.1992.sp019316.
Abstract
- We have used a combination of microfluorimetry and patch-clamp techniques to investigate cytoplasmic Ca2+ ([Ca2+]i) buffering in response to physiological Ca2+ loads in neurones cultured from the dorsal root ganglia of the rat. 2. In cells loaded with Indo-1 AM and using high resistance microelectrodes to initiate and record action potentials, single action potentials were associated with a measurable rise in [Ca2+]i. Short trains of action potentials evoked [Ca2+]i transients with monoexponential recovery rates with time constants of around 5 s. 3. Similar Ca2+ buffering properties were seen in cells perfused with patch-clamp pipettes in the whole-cell recording mode suggesting that the slow (seconds) Ca2+ buffering properties were not seriously perturbed by the recording technique. 4. In cells held under voltage clamp, reversal of the Na(+)-Ca2+ exchanger driving force had a small but significant effect on the rate of Ca2+ removal. 5. Increasing extracellular pH or adding vanadate (200 microM) to the internal solution dramatically slowed the rate of recovery. Addition of calmidazolium to the pipette solution also produced a significant but much less dramatic slowing of Ca2+ efflux. 6. The results demonstrate that the activity of a plasmalemmal Ca(2+)-ATPase is important for the removal of somatic Ca2+ loads of a similar amplitude to those generated by the firing of a few action potentials.
摘要
- 我们运用了微量荧光测定法和膜片钳技术相结合的方法,来研究从大鼠背根神经节培养的神经元中,细胞质钙离子([Ca2+]i)对生理性钙离子负荷的缓冲作用。2. 在加载了 Indo-1 AM 的细胞中,使用高电阻微电极引发并记录动作电位,单个动作电位与[Ca2+]i 的可测量升高相关。短串动作电位引发的[Ca2+]i 瞬变具有单指数恢复率,时间常数约为 5 秒。3. 在全细胞记录模式下,用膜片钳移液管灌注的细胞中也观察到了类似的钙离子缓冲特性,这表明缓慢(数秒)的钙离子缓冲特性并未受到记录技术的严重干扰。4. 在电压钳制下的细胞中,钠钙交换体驱动力的反转对钙离子清除速率有微小但显著的影响。5. 提高细胞外 pH 值或向内部溶液中添加钒酸盐(200 microM)会显著减慢恢复速率。向移液管溶液中添加氯米帕明也会使钙离子外流显著减慢,但程度要小得多。6. 结果表明,质膜钙 ATP 酶的活性对于清除与少数动作电位发放所产生的幅度相似的体细胞钙离子负荷非常重要。
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