神经内分泌细胞分泌控制的两步模型。

A two-step model of secretion control in neuroendocrine cells.

作者信息

Heinemann C, von Rüden L, Chow R H, Neher E

机构信息

Max-Planck-Institut für biophysikalische Chemie, Göttingen, Germany.

出版信息

Pflugers Arch. 1993 Jul;424(2):105-12. doi: 10.1007/BF00374600.

DOI:10.1007/BF00374600

PMID:8414901

Abstract

Recent experiments on a variety of neuroendocrine cells indicate that intense stimuli readily depress the secretory response. The most likely explanation for this depression is that a pool of release-ready granules is depleted. We present a two-step model of secretion that allows one to simulate the dynamics of such a pool for different time courses of free intracellular Ca concentration [Ca2+]i. We derive rate constants of the model from two types of experiment and find that, for the simplest type of model, not only the rate of consumption (exocytosis) but also the rate of vesicle supply to the pool of release-ready granules must be made Ca-dependent. Given these functional dependences a variety of results from the literature can be simulated. In particular, the model predicts the occurrence of secretory depression and augmentation under appropriate conditions.

摘要

最近对多种神经内分泌细胞进行的实验表明，强烈刺激很容易抑制分泌反应。对此种抑制最可能的解释是，准备释放的颗粒池被耗尽。我们提出了一个两步分泌模型，该模型能让人针对细胞内游离钙浓度[Ca2+]i的不同时间进程来模拟这样一个颗粒池的动态变化。我们从两种类型的实验中推导出该模型的速率常数，并发现，对于最简单类型的模型，不仅消耗（胞吐作用）速率，而且向准备释放的颗粒池供应囊泡的速率都必须依赖于钙。考虑到这些功能依赖性，文献中的各种结果都可以被模拟出来。特别是，该模型预测了在适当条件下分泌抑制和增强的发生情况。

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神经内分泌细胞分泌控制的两步模型。

A two-step model of secretion control in neuroendocrine cells.

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