大鼠海马神经元体外持续存在的、不依赖钙离子的钾电流的失活特性

Inactivation characteristics of a sustained, Ca(2+)-independent K+ current of rat hippocampal neurones in vitro.

作者信息

Nistri A, Cherubini E

机构信息

INSERM U. 29, Paris, France.

出版信息

J Physiol. 1992 Nov;457:575-90. doi: 10.1113/jphysiol.1992.sp019395.

DOI:10.1113/jphysiol.1992.sp019395

PMID:1338465

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1175748/

Abstract

Current or voltage clamp recordings from CA3 neurones of the adult rat hippocampal slice were performed to study the inactivation properties of a slow outward K+ current identified as the delayed rectifier (IK). 2. In current clamp experiments, burst firing evoked from resting membrane potential by intracellular current injection was reduced or blocked by conditioning hyperpolarizing pre-pulses of 20-40 mV amplitude. This effect was inhibited by tetraethylammonium (TEA; 20 mM) but was unaffected by Cs+ (3 mM), 4-aminopyridine (4-AP; 2 mM), carbachol (30-50 microM), mast cell degranulating peptide (MCDP; 300 nM), thyrotrophin releasing hormone (TRH; 1 microM) or by a Ca(2+)-free solution containing Mn2+ or Co2+ (2 mM). 3. Single-electrode voltage clamp experiments were carried out on neurones superfused with Ca(2+)-free solution, containing tetrodotoxin (TTX; 1 microM), Mn2+ or Co2+ (2 mM), 4-AP (2 mM), Cs+ (3 mM) and carbachol (30 microM). Step depolarizations from a holding potential of -55 mV activated an outward current which reached a plateau after 200 ms, followed by an outward tail current. Such an outward current had the characteristics of IK. 4. The outward currents were significantly potentiated by conditioning hyperpolarizing pre-pulses suggesting the IK was reduced by a voltage-dependent inactivation process. Removal of inactivation was a function of the amplitude of the conditioning hyperpolarizing pre-pulse. At a holding potential of -55 mV removal of inactivation was time dependent with a time constant of 211 ms. High K+ (12.5 or 21.5 mM) solutions did not affect the inactivation characteristics of IK. 5. Tetraethylammonium (20 mM) or low concentrations of Ba2+ (0.1 mM) readily depressed the outward current without significantly affecting the inactivation process. Dendrotoxin (200 nM) also depressed such a slow current but, in addition, increased the inactivation process of IK. 6. It is suggested that removal of inactivation of IK by hyperpolarization can modulate cell excitability by fully restoring the ability of IK to inhibit burst firing of CA3 hippocampal neurones.

摘要

采用成年大鼠海马脑片CA3神经元的电流或电压钳记录，以研究一种被鉴定为延迟整流钾电流（IK）的缓慢外向钾电流的失活特性。2. 在电流钳实验中，通过细胞内电流注入从静息膜电位诱发的爆发式放电，可被幅度为20 - 40 mV的超极化预处理脉冲减弱或阻断。该效应被四乙铵（TEA；20 mM）抑制，但不受铯离子（Cs +；3 mM）、4 - 氨基吡啶（4 - AP；2 mM）、卡巴胆碱（30 - 50 μM）、肥大细胞脱颗粒肽（MCDP；300 nM）、促甲状腺激素释放激素（TRH；1 μM）或含锰离子或钴离子（2 mM）的无钙溶液影响。3. 在灌流含河豚毒素（TTX；1 μM）、锰离子或钴离子（2 mM）、4 - AP（2 mM）、Cs +（3 mM）和卡巴胆碱（30 μM）的无钙溶液的神经元上进行单电极电压钳实验。从 - 55 mV的钳制电位进行的阶跃去极化激活了一个外向电流，该电流在200 ms后达到平台期，随后是外向尾电流。这种外向电流具有IK的特征。4. 预处理超极化脉冲可显著增强外向电流，提示IK通过电压依赖性失活过程而减小。失活的消除是预处理超极化脉冲幅度的函数。在 - 55 mV的钳制电位下，失活的消除呈时间依赖性，时间常数为211 ms。高钾（12.5或21.5 mM）溶液不影响IK的失活特性。5. 四乙铵（20 mM）或低浓度钡离子（0.1 mM）可轻易抑制外向电流，而不显著影响失活过程。树眼镜蛇毒素（200 nM）也抑制这种缓慢电流，但此外，还增加了IK的失活过程。6. 提示超极化对IK失活的消除可通过完全恢复IK抑制CA3海马神经元爆发式放电的能力来调节细胞兴奋性。