去甲肾上腺素、三磷酸肌醇或钙离子在豚鼠离体肝细胞中诱发的电导动力学。
Kinetics of the conductance evoked by noradrenaline, inositol trisphosphate or Ca2+ in guinea-pig isolated hepatocytes.
作者信息
Ogden D C, Capiod T, Walker J W, Trentham D R
机构信息
Department of Pharmacology, King's College London, Strand.
出版信息
J Physiol. 1990 Mar;422:585-602. doi: 10.1113/jphysiol.1990.sp018002.
Abstract
- Guinea-pig hepatocytes respond to noradrenaline (NA, 5-10 microM) with a large membrane conductance increase to K+ and Cl-. The response has a long initial delay (range 2-30 s). Following the delay, the K+ conductance (studied in Cl(-)-free solutions) rises quickly to a peak in 1-2 s and is maintained in the continued presence of NA, though often with superimposed oscillations of conductance. The roles of intracellular Ca2+ and D-myo-inositol 1,4,5-trisphosphate (InsP3) in this complex response have been investigated by rapid photolytic release of intracellular Ca2+ (from Nitr5-Ca2+ buffers) or InsP3 from 'caged' InsP3. 2. A rapid increase of intracellular [Ca2+] produced an immediate membrane conductance increase which rose approximately exponentially to a new steady level, consistent with a direct activation of Ca2(+)-dependent ion channels. 3. Following a pulse of InsP3, conductance rose after a brief delay (range 70-1500 ms) which was shortest at high [InsP3] or if the initial cytosolic [Ca2+] had been raised above normal levels. The maximum conductance produced by InsP3 was similar in each cell to the peak recorded with NA and could be evoked by InsP3 concentrations of 0.5-1 microM. 4. The rates of rise of conductance increased with InsP3 concentration in the range 0.25-12.5 microM (range 10-90%, rise times 90-1000 ms), indicating that InsP3-evoked Ca2(+)-efflux from stores increases with InsP3 concentration in this range. 5. Photochemically released InsP3 and Ca2+ activate at physiological concentrations the same membrane conductances as NA. The results indicate that the long initial delay in NA action occurs prior to or during generation of InsP3. The mechanism of the delay and the subsequent apparently all-or-none conductance increase during NA action are discussed in terms of the high co-operativity in InsP3 and Ca2+ actions and an additional positive feedback step. 6. Evidence was found of a negative interaction between [Ca2+] and InsP3-evoked Ca2+ release. The time course of the recovery of InsP3-evoked Ca2+ release following a rise of cytosolic [Ca2+] suggests that this interaction may be important in regulating oscillatory responses of [Ca2+] during hormonal stimulation of guinea-pig hepatocytes.
摘要
- 豚鼠肝细胞对去甲肾上腺素(NA,5 - 10微摩尔)有反应,表现为对钾离子和氯离子的膜电导大幅增加。该反应有较长的初始延迟(范围为2 - 30秒)。延迟之后,钾离子电导(在无氯离子溶液中研究)在1 - 2秒内迅速上升至峰值,并在持续存在NA的情况下保持,不过电导常伴有叠加振荡。通过从Nitr5 - Ca²⁺缓冲液快速光解释放细胞内Ca²⁺或从“笼化”肌醇三磷酸(InsP3)释放InsP3,研究了细胞内Ca²⁺和D - 肌醇1,4,5 - 三磷酸(InsP3)在这种复杂反应中的作用。2. 细胞内[Ca²⁺]的快速增加导致膜电导立即增加,其大致呈指数上升至新的稳定水平,这与Ca²⁺依赖性离子通道的直接激活一致。3. 在InsP3脉冲之后,电导在短暂延迟(范围为70 - 1500毫秒)后上升,在高[InsP3]时或初始胞质[Ca²⁺]高于正常水平时延迟最短。InsP3产生的最大电导在每个细胞中与用NA记录的峰值相似,并且0.5 - 1微摩尔的InsP3浓度即可诱发。4. 在0.25 - 12.5微摩尔范围内,电导上升速率随InsP3浓度增加(范围为10 - 90%,上升时间为90 - 1000毫秒),表明在此范围内InsP3诱发的Ca²⁺从储存库流出量随InsP3浓度增加。5. 光化学释放的InsP3和Ca²⁺在生理浓度下激活与NA相同的膜电导。结果表明,NA作用的长时间初始延迟发生在InsP3产生之前或期间。根据InsP3和Ca²⁺作用中的高协同性以及一个额外的正反馈步骤,讨论了延迟机制以及NA作用期间随后明显的全或无电导增加。6. 发现了[Ca²⁺]与InsP3诱发的Ca²⁺释放之间存在负相互作用的证据。胞质[Ca²⁺]升高后InsP3诱发的Ca²⁺释放恢复的时间进程表明,这种相互作用可能在调节豚鼠肝细胞激素刺激期间[Ca²⁺]的振荡反应中起重要作用。
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