1,4,5-三磷酸肌醇门控钙通道1型受三磷酸肌醇和钙的调控：基于配体结合和电生理分析的单通道动力学模拟

Regulation of type 1 inositol 1,4,5-trisphosphate-gated calcium channels by InsP3 and calcium: Simulation of single channel kinetics based on ligand binding and electrophysiological analysis.

作者信息

Moraru I I, Kaftan E J, Ehrlich B E, Watras J

机构信息

Departments of Medicine, Surgery, and Physiology, University of Connecticut, Farmington, Connecticut 06030, USA.

出版信息

J Gen Physiol. 1999 Jun;113(6):837-49. doi: 10.1085/jgp.113.6.837.

DOI:10.1085/jgp.113.6.837

PMID:10352034

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2225610/

Abstract

Cytosolic calcium acts as both a coagonist and an inhibitor of the type 1 inositol 1,4,5-trisphosphate (InsP3)-gated Ca channel, resulting in a bell-shaped Ca dependence of channel activity (Bezprozvanny, I., J. Watras, and B.E. Ehrlich. 1991. Nature. 351:751-754; Finch, E.A., T.J. Turner, and S.M. Goldin. 1991. Science. 252: 443-446; Iino, M. 1990. J. Gen. Physiol. 95:1103-1122). The ability of Ca to inhibit channel activity, however, varies dramatically depending on InsP3 concentration (Combettes, L., Z. Hannaert-Merah, J.F. Coquil, C. Rousseau, M. Claret, S. Swillens, and P. Champeil. 1994. J. Biol. Chem. 269:17561-17571; Kaftan, E.J., B.E. Ehrlich, and J. Watras. 1997. J. Gen. Physiol. 110:529-538). In the present report, we have extended the characterization of the effect of cytosolic Ca on both InsP3 binding and InsP3-gated channel kinetics, and incorporated these data into a mathematical model capable of simulating channel kinetics. We found that cytosolic Ca increased the Kd of InsP3 binding approximately 3.5-fold, but did not influence the maximal number of binding sites. The ability of Ca to decrease InsP3 binding is consistent with the rightward shift in the bell-shaped Ca dependence of InsP3-gated Ca channel activity. High InsP3 concentrations are able to overcome the Ca-dependent inhibition of channel activity, apparently due to a low affinity InsP3 binding site (Kaftan, E.J., B.E. Ehrlich, and J. Watras. 1997. J. Gen. Physiol. 110:529-538). Constants from binding analyses and channel activity determinations were used to develop a mathematical model that fits the complex Ca-dependent regulation of the type 1 InsP3-gated Ca channel. This model accurately simulated both steady state data (channel open probability and InsP3 binding) and kinetic data (channel activity and open time distributions), and yielded testable predictions with regard to the regulation of this intracellular Ca channel. Information gained from these analyses, and our current molecular model of this Ca channel, will be important for understanding the basis and regulation of intracellular Ca waves and oscillations in intact cells.

摘要

胞质钙既作为1型肌醇1,4,5 -三磷酸（InsP3）门控钙通道的协同激动剂，又作为其抑制剂，导致通道活性呈现钟形的钙依赖性（贝兹普罗兹瓦尼，I.，J. 瓦特拉，和B.E. 埃利希。1991年。《自然》。351:751 - 754；芬奇，E.A.，T.J. 特纳，和S.M. 戈尔丁。1991年。《科学》。252: 443 - 446；饭野，M. 1990年。《普通生理学杂志》。95:1103 - 1122）。然而，钙抑制通道活性的能力会因InsP3浓度的不同而有显著差异（孔贝泰斯，L.，Z. 汉纳尔特 - 梅拉，J.F. 科基尔，C. 卢梭，M. 克莱雷，S. 斯维伦斯，和P. 尚佩伊。1994年。《生物化学杂志》。269:17561 - 17571；卡夫坦，E.J.，B.E. 埃利希，和J. 瓦特拉。1997年。《普通生理学杂志》。110:529 - 538）。在本报告中，我们扩展了对胞质钙对InsP3结合及InsP3门控通道动力学影响的特征描述，并将这些数据纳入一个能够模拟通道动力学的数学模型。我们发现胞质钙使InsP3结合的解离常数（Kd）增加了约3.5倍，但不影响最大结合位点数。钙降低InsP3结合的能力与InsP3门控钙通道活性的钟形钙依赖性向右偏移相一致。高InsP3浓度能够克服钙对通道活性的依赖性抑制，这显然是由于存在一个低亲和力的InsP3结合位点（卡夫坦，E.J.，B.E. 埃利希，和J. 瓦特拉。1997年。《普通生理学杂志》。110:529 - 538）。结合分析和通道活性测定得到的常数被用于构建一个数学模型，该模型符合1型InsP3门控钙通道复杂的钙依赖性调节。这个模型准确地模拟了稳态数据（通道开放概率和InsP3结合）以及动力学数据（通道活性和开放时间分布），并就该细胞内钙通道的调节产生了可检验的预测。从这些分析中获得的信息以及我们目前关于该钙通道的分子模型，对于理解完整细胞中细胞内钙波和振荡的基础及调节将具有重要意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7878/2225610/e4cfb66b9b0a/JGP7780.f1.jpg

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1,4,5-三磷酸肌醇门控钙通道1型受三磷酸肌醇和钙的调控：基于配体结合和电生理分析的单通道动力学模拟

Regulation of type 1 inositol 1,4,5-trisphosphate-gated calcium channels by InsP3 and calcium: Simulation of single channel kinetics based on ligand binding and electrophysiological analysis.

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