一种缓慢激活的钙依赖性钾电流,在非洲爪蟾胚胎游泳终止过程中发挥作用。
A slowly activating Ca(2+)-dependent K+ current that plays a role in termination of swimming in Xenopus embryos.
作者信息
Wall M J, Dale N
机构信息
School of Biological Sciences, University of Bristol, UK.
出版信息
J Physiol. 1995 Sep 15;487 ( Pt 3)(Pt 3):557-72. doi: 10.1113/jphysiol.1995.sp020900.
Abstract
- Acutely isolated Xenopus spinal neurons possess a slowly activating Ca(2+)-dependent outward current which was revealed either by removal of external Ca2+ or by the addition of the Ca2+ channel blocker, 150 microM Cd2+. 2. The Ca(2+)-sensitive current was very slow to activate and had a mean time constant of activation of 437 ms at 0 mV. The current also had very long tail currents which were blocked by Cd2+. The rate of decay of the slowest component of the Ca(2+)-dependent tail currents was insensitive to membrane potential suggesting that the relaxation of the Ca(2+)-dependent current may only be weakly voltage dependent. 3. The reversal potential of the Ca(2+)-sensitive tail currents depended on the concentration of external K+ in a manner predicted by the Nernst equation. Thus the Ca(2+)-sensitive current was carried by K+. 4. The toxin apamin (10 nM to 2 microM) selectively blocked the Ca(2+)-dependent K+ current without affecting voltage-gated K+ currents. This current may be analogous to a small-conductance Ca(2+)-dependent K+ (SK) current; however, unlike some SK currents, the Ca(2+)-dependent K+ current was also sensitive to 500 microM tetraethylammonium chloride (TEA). 5. Applications of 10 nM apamin to spinalized embryos did not perturb the motor pattern for swimming. However, the cycle periods over which the locomotor rhythm generator could generate appropriate motor activity were lengthened by about 10% and the mean duration of swimming episodes was increased by approximately 40%. 6. We therefore propose that the Ca(2+)-dependent K+ current plays an important role in the self-termination of motor activity.
摘要
- 急性分离的非洲爪蟾脊髓神经元具有一种缓慢激活的钙依赖性外向电流,该电流可通过去除细胞外钙离子或添加钙离子通道阻滞剂150微摩尔/升的镉离子来揭示。2. 钙敏感电流激活非常缓慢,在0毫伏时平均激活时间常数为437毫秒。该电流还具有非常长的尾电流,可被镉离子阻断。钙依赖性尾电流最慢成分的衰减速率对膜电位不敏感,这表明钙依赖性电流的松弛可能仅具有微弱的电压依赖性。3. 钙敏感尾电流的反转电位取决于细胞外钾离子浓度,符合能斯特方程预测的方式。因此,钙敏感电流由钾离子携带。4. 毒素蜂毒明肽(10纳摩尔至2微摩尔)选择性阻断钙依赖性钾电流,而不影响电压门控钾电流。这种电流可能类似于小电导钙依赖性钾(SK)电流;然而,与一些SK电流不同,钙依赖性钾电流也对500微摩尔氯化四乙铵(TEA)敏感。5. 对去脊髓胚胎施加10纳摩尔蜂毒明肽不会干扰游泳的运动模式。然而,运动节律发生器能够产生适当运动活动的周期延长了约10%,游泳发作的平均持续时间增加了约40%。6. 因此,我们提出钙依赖性钾电流在运动活动的自我终止中起重要作用。
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