培养的小鼠胰腺β细胞中钙电流的特性及钙依赖性失活
Properties and calcium-dependent inactivation of calcium currents in cultured mouse pancreatic B-cells.
作者信息
Plant T D
机构信息
I. Physiologisches Institut der Universität des Saarlandes, Homburg/Saar, F.R.G.
出版信息
J Physiol. 1988 Oct;404:731-47. doi: 10.1113/jphysiol.1988.sp017316.
Abstract
- Ca2+ currents were recorded using the whole-cell mode of the patch-clamp technique from mouse pancreatic B-cells kept in culture for 1-4 days. B-cells were identified in the cell-attached mode by their response to a change in the glucose concentration from 3 to 15 or 20 mM or by their inward currents. 2. Only one component of Ca2+ current was observed in these cells, which activated at potentials greater than -50 mV and was blocked by nitrendipine (5 microM), and increased in amplitude by CGP 28392 (5 microM). 3. During maintained depolarizations the Ca2+ current inactivated considerably but not completely. Inactivation was most marked at potentials where the Ca2+ currents were large, but in general was slower for currents at potentials greater than 0 mV than at more negative potentials. 4. Two-pulse experiments showed that the inactivation curve for the Ca2+ current was U-shaped, returning to unity at potentials approaching the Ca2+ equilibrium potential. Measurements of Ca2+ entry showed that inactivation was dependent on the amount of Ca2+ entering during the pre-pulse, independent of the pre-pulse potential. 5. Ca2+ currents were not appreciably slowed when BAPTA, a faster buffer of Ca2+, replaced EGTA in the pipette solution. 6. Replacement of Ca2+ in the external solution by Ba2+ increased the amplitude of the inward current and largely abolished inactivation. Large inward currents through Ca2+ channels were observed in the absence of divalent cations in the external solution (+EGTA), which were presumably carried by Na+. These currents did not inactivate during 150 ms depolarizations, but were increased in amplitude by CGP 28392 (5 microM) and blocked by D600 (30 microM). 7. The observations suggest that normal mouse pancreatic B-cells have only one type of Ca2+ channel which is dihydropyridine sensitive and inactivates by a mechanism which is almost purely Ca2+ dependent. Inactivation of the Ca2+ current will probably be important in the control of Ca2+ entry during glucose-induced electrical activity.
摘要
- 使用膜片钳技术的全细胞模式,从培养1 - 4天的小鼠胰腺β细胞记录Ca²⁺电流。在细胞贴附模式下,通过β细胞对葡萄糖浓度从3 mM变为15 mM或20 mM的反应或其内向电流来识别β细胞。2. 在这些细胞中仅观察到一种Ca²⁺电流成分,其在大于 - 50 mV的电位下激活,被尼群地平(5 μM)阻断,并且被CGP 28392(5 μM)增大幅度。3. 在持续去极化期间,Ca²⁺电流显著失活但未完全失活。失活在Ca²⁺电流大的电位处最为明显,但总体而言,在大于0 mV电位处的电流失活比在更负电位处的电流慢。4. 双脉冲实验表明,Ca²⁺电流的失活曲线呈U形,在接近Ca²⁺平衡电位的电位处恢复到1。Ca²⁺内流的测量表明,失活取决于预脉冲期间进入的Ca²⁺量,与预脉冲电位无关。5. 当移液管溶液中更快的Ca²⁺缓冲剂BAPTA替代EGTA时,Ca²⁺电流没有明显减慢。6. 用Ba²⁺替代外部溶液中的Ca²⁺增加了内向电流的幅度并基本消除了失活。在外部溶液中不存在二价阳离子(+EGTA)时观察到通过Ca²⁺通道的大内向电流,推测这些电流由Na⁺携带。这些电流在150 ms去极化期间不失活,但被CGP 28392(5 μM)增大幅度并被D600(30 μM)阻断。7. 这些观察结果表明,正常小鼠胰腺β细胞仅有一种对二氢吡啶敏感的Ca²⁺通道类型,其通过几乎纯粹依赖Ca²⁺的机制失活。Ca²⁺电流的失活可能在葡萄糖诱导的电活动期间对Ca²⁺内流的控制中起重要作用。
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