体外培养的大鼠蓝斑神经元中钙激活的超极化
Calcium-activated hyperpolarizations in rat locus coeruleus neurons in vitro.
作者信息
Osmanović S S, Shefner S A
机构信息
Department of Physiology and Biophysics, University of Illinois at Chicago, College of Medicine 60612.
出版信息
J Physiol. 1993 Sep;469:89-109. doi: 10.1113/jphysiol.1993.sp019806.
Abstract
- Intracellular recordings were made from rat locus coeruleus (LC) neurons in completely submerged brain slices. Trains of action potentials in LC neurons were followed by a prolonged post-stimulus hyperpolarization (PSH). If trains were elicited with depolarizing current pulses of sufficient intensity, PSH was composed of a fast, early component (PSHE) and a slow, late component (PSHL). PSH which followed trains elicited with lower intensity depolarizing current pulses consisted only of PSHL. 2. Both PSHE and PSHL were augmented by increasing the number of action potentials in the train and both were associated with an increase in membrane conductance. The reversal potential for PSHE was -108 mV and for PSHL it was -114 mV. 3. When a hybrid voltage clamp protocol was used, the current underlying PSH (IPSH) was observed to consist of an early, rapidly decaying component, IE, followed by a late, slower decaying component, IL. The time course of decay of IPSH was biexponential with the time constant of decay of IL more than one order of magnitude larger than the time constant of decay of IE. An increase in the concentration of external K+ shifted the reversal potentials for IE and IL in the depolarizing direction; the mean value of shift per tenfold increase in external K+ concentration was 57.1 mV for IE and 57.6 mV for IL. 4. Both PSHE and PSHL were inhibited by lowering the external Ca2+ concentration or by application of the Ca2+ channel blockers Cd2+ (200-500 microM) or nifedipine (100 microM). Intracellular injection of EGTA abolished both components of PSH. Increasing the external Ca2+ concentration augmented both PSH components. 5. Superfusion of dantrolene (25 microM) or ryanodine (20 microM) decreased the amplitude and duration of PSHL with much less effect on PSHE. 6. d-Tubocurarine (20-200 microM) selectively blocked PSHE with no effect on PSHL; this effect is the same as that of apamin which we have previously described. Superfusion with charybdotoxin (40 nM) or TEA (400 microM-1 mM) did not reduce PSHE or PSHL. 7. Inhibition of IA by 4-aminopyridine or 2,4-diaminopyridine also did not reduce either component of PSH. In fact, these agents slightly augmented both components of PSH; this effect was probably secondary to the prolongation of action potential duration. Superfusion of TEA in concentrations of 2-10 mM increased the size and duration of PSHL and increased the duration but decreased the size of PSHE.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
- 在完全浸没的脑片中对大鼠蓝斑(LC)神经元进行细胞内记录。LC神经元的动作电位串之后会出现长时间的刺激后超极化(PSH)。如果用足够强度的去极化电流脉冲引发动作电位串,PSH由快速的早期成分(PSHE)和缓慢的晚期成分(PSHL)组成。用较低强度去极化电流脉冲引发的动作电位串之后的PSH仅由PSHL组成。2. 通过增加动作电位串中的动作电位数量,PSHE和PSHL均增强,且二者均与膜电导增加相关。PSHE的反转电位为 -108 mV,PSHL的反转电位为 -114 mV。3. 当使用混合电压钳制方案时,观察到PSH(IPSH)的基础电流由早期快速衰减成分IE和晚期缓慢衰减成分IL组成。IPSH的衰减时间进程呈双指数形式,IL的衰减时间常数比IE的衰减时间常数大一个数量级以上。外部K⁺浓度增加使IE和IL的反转电位向去极化方向移动;外部K⁺浓度每增加10倍,IE的平均移动值为57.1 mV,IL的平均移动值为57.6 mV。4. 通过降低外部Ca²⁺浓度或应用Ca²⁺通道阻滞剂Cd²⁺(200 - 500微摩尔)或硝苯地平(100微摩尔),PSHE和PSHL均受到抑制。细胞内注射乙二醇双乙醚四乙酸(EGTA)消除了PSH的两个成分。增加外部Ca²⁺浓度增强了PSH的两个成分。5. 用丹曲林(25微摩尔)或ryanodine(20微摩尔)灌注可降低PSHL的幅度和持续时间,对PSHE的影响小得多。6. d - 筒箭毒碱(20 - 200微摩尔)选择性阻断PSHE,对PSHL无影响;此效应与我们之前描述的蜂毒明肽相同。用大蝎毒素(40纳摩尔)或四乙铵(400微摩尔 - 1毫摩尔)灌注不会降低PSHE或PSHL。7. 4 - 氨基吡啶或2,4 - 二氨基吡啶对IA的抑制也不会降低PSH的任何一个成分。实际上,这些药物会轻微增强PSH的两个成分;此效应可能继发于动作电位持续时间的延长。用2 - 10毫摩尔浓度的四乙铵灌注可增加PSHL的大小和持续时间,并增加PSHE的持续时间但减小其大小。(摘要截于400字)
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