The versatility and complexity of calcium signalling.

Novartis Foundation Symposium Pub Date : 2008-10-07 DOI:10.1002/0470846674.CH6

M. Berridge

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引用次数: 102

Abstract

Ca2+ is a universal second messenger used to regulate a wide range of cellular processes such as fertilization, proliferation, contraction, secretion, learning and memory. Cells derive signal Ca2+ from both internal and external sources. The Ca2+ flowing through these channels constitute the elementary events of Ca2+ signalling. Ca2+ can act within milliseconds in highly localized regions or it can act much more slowly as a global wave that spreads the signal throughout the cell. Various pumps and exchangers are responsible for returning the elevated levels of Ca2+ back to the resting state. The mitochondrion also plays a critical role in that it helps the recovery process by taking Ca2+ up from the cytoplasm. Alterations in the ebb and flow of Ca2+ through the mitochondria can lead to cell death. A good example of the complexity of Ca2+ signalling is its role in regulating cell proliferation, such as the activation of lymphocytes. The Ca2+ signal needs to be present for over two hours and this prolonged period of signalling depends upon the entry of external Ca2+ through a process of capacitative Ca2+ entry. The Ca2+ signal stimulates gene transcription and thus initiates the cell cycle processes that culminate in cell division.

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钙信号的多功能性和复杂性。

Ca2+是一种通用的第二信使，用于调节广泛的细胞过程，如受精、增殖、收缩、分泌、学习和记忆。细胞从内部和外部来源获得信号Ca2+。Ca2+通过这些通道流动构成Ca2+信号传导的基本事件。Ca2+可以在几毫秒内在高度局部区域起作用，也可以作为一种更慢的全球波在整个细胞中传播信号。各种泵和交换器负责将升高的Ca2+水平返回到静息状态。线粒体也起着至关重要的作用，它通过从细胞质中吸收Ca2+来帮助恢复过程。线粒体中Ca2+的涨落变化可导致细胞死亡。Ca2+信号复杂性的一个很好的例子是它在调节细胞增殖中的作用，如淋巴细胞的激活。Ca2+信号需要存在超过两个小时，这种延长的信号周期取决于外部Ca2+通过容性Ca2+进入过程的进入。Ca2+信号刺激基因转录，从而启动细胞周期过程，最终导致细胞分裂。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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