对大鼠内侧前庭核神经元动作电位复极化和后电位有贡献的离子电导。
Ionic conductances contributing to spike repolarization and after-potentials in rat medial vestibular nucleus neurones.
作者信息
Johnston A R, MacLeod N K, Dutia M B
机构信息
Department of Physiology, Medical School, Edinburgh, UK.
出版信息
J Physiol. 1994 Nov 15;481 ( Pt 1)(Pt 1):61-77. doi: 10.1113/jphysiol.1994.sp020419.
Abstract
- Intracellular recordings were made from 123 tonically active medial vestibular nucleus (MVN) neurones in a horizontal slice preparation of the dorsal brainstem of the rat. On the basis of their averaged action potential shapes, the cells were classified as either type A, having a single deep after-hyperpolarization (AHP; 40/123 cells, 33%), or type B, having an early fast AHP and a delayed slow AHP (83/123 cells, 67%). The two cell types were distributed throughout the rostrocaudal extent of the MVN. 2. In type A cells TEA reduced the single deep AHP and decreased the rate of spike repolarization. Depolarizing current pulses from a hyperpolarized membrane potential elicited spikes with short plateau potentials in TEA. These persisted in Ca(2+)-free medium but were abolished along with the spontaneous activity in TTX. Ca(2+)-free medium did not affect the initial rate of repolarization but reduced the deep AHP. Apamin and carbachol had little effect. 4-Aminopyridine (4-AP) slowed spike repolarization and the AHP amplitude by a small amount. Thus, in type A cells spike repolarization and AHP appear to be mediated largely by a TEA-sensitive potassium current (presumably IK) and an apamin-insensitive Ca(2+)-activated potassium current (presumably IC). 3. The early fast AHP in type B cells was readily abolished in TEA. In seven of ten type B cells tested, the spontaneous spikes developed plateau potentials of 100-120 ms duration in 10 mM TEA, which then became 7-9 s long in Ca(2+)-free medium. In the remaining three cells, the spontaneous plateaux were 1.75-2 s long in TEA, and were reduced to 30-100 ms in Ca(2+)-free medium. TTX abolished the spontaneous spikes and plateaux. The delayed AHP was abolished by apamin, which induced irregular firing. 4-AP slowed spike repolarization and abolished the fast AHP, but did not induce plateaux. Thus, in type B cells spike repolarization involves a TEA-sensitive current (presumably IK) as well as IC and the 4-AP-sensitive potassium current IA, while the apamin-sensitive potassium current IAHP is responsible for the delayed AHP. 4. The tonic activity in type B cells appears to be regulated mainly by interactions between a persistent Na+ current, which in most cells is large enough to generate plateaux when repolarization is impeded in TEA, and the hyperpolarization mediated by IAHP. About 30% of type B cells have an additional inward Ca2+ current.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
- 在大鼠背侧脑干水平切片标本中,对123个紧张性活动的内侧前庭核(MVN)神经元进行了细胞内记录。根据平均动作电位的形状,这些细胞被分为A 型,具有单个深度超极化后电位(AHP;40/123个细胞,33%),或B型,具有早期快速AHP和延迟缓慢AHP(83/123个细胞,67%)。这两种细胞类型分布于MVN的整个 rostrocaudal 范围。2. 在A 型细胞中,TEA 降低了单个深度AHP并降低了动作电位复极化速率。从超极化膜电位施加的去极化电流脉冲在TEA中引发具有短平台电位的动作电位。这些在无Ca(2+) 培养基中持续存在,但在TTX中与自发活动一起被消除。无Ca(2+) 培养基不影响初始复极化速率,但降低了深度AHP。蜂毒明肽和卡巴胆碱影响很小。4-氨基吡啶(4-AP)使动作电位复极化和AHP幅度略有减慢。因此,在A 型细胞中,动作电位复极化和AHP似乎主要由TEA敏感的钾电流(可能是IK)和蜂毒明肽不敏感的Ca(2+) 激活钾电流(可能是IC)介导。3. B型细胞中的早期快速AHP在TEA中很容易被消除。在测试的10个B型细胞中的7个中,自发动作电位在10 mM TEA中产生持续100 - 120 ms的平台电位,然后在无Ca(2+) 培养基中变为7 - 9 s长。在其余3个细胞中,自发平台在TEA中为1.75 - 2 s长,在无Ca(2+) 培养基中减少到30 - 100 ms。TTX消除了自发动作电位和平台电位。延迟AHP被蜂毒明肽消除,蜂毒明肽诱导不规则放电。4-AP使动作电位复极化减慢并消除了快速AHP,但不诱导平台电位。因此,在B型细胞中,动作电位复极化涉及TEA敏感电流(可能是IK)以及IC和4-AP敏感的钾电流IA,而蜂毒明肽敏感的钾电流IAHP负责延迟AHP。4. B型细胞中的紧张性活动似乎主要由持续性Na+电流与IAHP介导的超极化之间的相互作用调节,在大多数细胞中,当在TEA中复极化受阻时,持续性Na+电流大到足以产生平台电位。约30%的B型细胞有额外的内向Ca2+电流。(摘要截断于400字)
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