兔耳神经节细胞中钙诱导的钙释放及其对单个动作电位的响应激活。
Ca(2+)-induced Ca2+ release and its activation in response to a single action potential in rabbit otic ganglion cells.
作者信息
Yoshizaki K, Hoshino T, Sato M, Koyano H, Nohmi M, Hua S Y, Kuba K
机构信息
Department of Physiology, School of Medicine, Akita University, Japan.
出版信息
J Physiol. 1995 Jul 1;486 ( Pt 1)(Pt 1):177-87. doi: 10.1113/jphysiol.1995.sp020801.
Abstract
- Ryanodine-sensitive intracellular Ca2+ release activated by Ca2+ entry was studied with fura-2 fluorescence and intracellular voltage recording techniques in rabbit otic ganglion cells. 2. The removal of extracellular Ca2+ reduced sustained, transient or oscillatory rises in intracellular Ca2+ ([Ca2+]i) induced at high extracellular K+ and abolished the [Ca2+]i oscillation in cultured neurones. 3. Ryanodine (10 microM) transiently increased [Ca2+]i and reduced the amplitude and rate of rise of the high-K(+)-induced rise in [Ca2+]i, while caffeine (5 mM) produced a few transient rises in [Ca2+]i in most cultured cells and [Ca2+]i oscillation only in one cell. 4. The two components of the slow after-hyperpolarization (AHP) of an action potential in neurones of freshly isolated ganglia were dependent on extracellular Ca2+ and abolished by Ca2+ channel blockers, Cd2+ or Co2+. 5. The late component of AHP (LAHP), but not the initial component, in 'fresh' neurones increased in area with an increase in the preceding interval, was abolished by ryanodine (10 microM) and intracellularly injected EGTA, and mimicked by intracellular injection of Ca2+. 6. A ryanodine-sensitive Ca(2+)-induced Ca2+ release thus exists, operates in response to an action potential-induced Ca2+ entry and underlies LAHP in rabbit otic ganglion cells.
摘要
- 运用fura - 2荧光和细胞内电压记录技术,在兔耳神经节细胞中研究了由Ca2 +内流激活的对兰尼碱敏感的细胞内Ca2 +释放。2. 去除细胞外Ca2 +可降低在高细胞外K +时诱导的细胞内Ca2 +([Ca2 +]i)的持续、短暂或振荡性升高,并消除培养神经元中的[Ca2 +]i振荡。3. 兰尼碱(10微摩尔)可短暂增加[Ca2 +]i,并降低高K +诱导的[Ca2 +]i升高的幅度和上升速率,而咖啡因(5毫摩尔)在大多数培养细胞中使[Ca2 +]i出现几次短暂升高,仅在一个细胞中引起[Ca2 +]i振荡。4. 新鲜分离神经节神经元动作电位的慢后超极化(AHP)的两个成分依赖于细胞外Ca2 +,并被Ca2 +通道阻滞剂、Cd2 +或Co2 +消除。5. “新鲜”神经元中AHP的晚期成分(LAHP),而非初始成分,其面积随前间隔增加而增大,被兰尼碱(10微摩尔)和细胞内注射的EGTA消除,并可被细胞内注射Ca2 +模拟。6. 因此,存在一种对兰尼碱敏感的Ca2 +诱导的Ca2 +释放,其响应动作电位诱导的Ca2 +内流而发挥作用,并构成兔耳神经节细胞中LAHP的基础。
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