铜离子和锌离子对磷酸肌醇3激酶/蛋白激酶B信号通路的刺激：机制与后果

Stimulation of phosphoinositide 3-kinase/Akt signaling by copper and zinc ions: mechanisms and consequences.

作者信息

Barthel Andreas, Ostrakhovitch Elena A, Walter Philippe L, Kampkötter Andreas, Klotz Lars-Oliver

机构信息

Medizinische Klinik I, BG Kliniken Bergmannsheil, Ruhr-Universität, Bochum, Germany.

出版信息

Arch Biochem Biophys. 2007 Jul 15;463(2):175-82. doi: 10.1016/j.abb.2007.04.015. Epub 2007 May 4.

DOI:10.1016/j.abb.2007.04.015

PMID:17509519

Abstract

The phosphoinositide 3'-kinase (PI3K)/Akt signaling cascade controls cellular processes such as apoptosis and proliferation. Moreover, it is a mediator of insulin effects on target cells and as such is a major regulator of fuel metabolism. The PI3K/Akt cascade was demonstrated to be activated by stressful stimuli, including heat shock and reactive oxygen species (ROS). This minireview focuses on activation of the pathway by exposure of cells to heavy metal ions, Cu2+ and Zn2+. It is hypothesized that stimulation of PI3K/Akt is the molecular mechanism underlying the known insulin-mimetic effects of copper and zinc ions. Following a brief summary of PI3K/Akt signaling and of activation of the cascade by Cu2+ and Zn2+, mechanisms of metal-induced PI3K/Akt activation are discussed with a focus on the role of ROS and of cellular thiols (glutathione, thioredoxin) and protein tyrosine phosphatases in Cu2+ and Zn2+ signaling. Finally, consequences of metal-induced PI3K/Akt activation are discussed, focusing on the modulation of FoxO-family transcription factors by Cu2+ and Zn2+.

摘要

磷酸肌醇-3'-激酶（PI3K）/Akt信号级联反应控制着细胞凋亡和增殖等细胞过程。此外，它还是胰岛素作用于靶细胞的介质，因此是能量代谢的主要调节因子。PI3K/Akt级联反应已被证明可被应激刺激激活，包括热休克和活性氧（ROS）。本综述聚焦于细胞暴露于重金属离子铜离子（Cu2+）和锌离子（Zn2+）时该信号通路的激活情况。据推测，PI3K/Akt的激活是铜离子和锌离子已知的胰岛素模拟作用的分子机制。在简要概述PI3K/Akt信号传导以及Cu2+和Zn2+对该级联反应的激活之后，我们将讨论金属诱导PI3K/Akt激活的机制，重点关注ROS、细胞硫醇（谷胱甘肽、硫氧还蛋白）以及蛋白酪氨酸磷酸酶在Cu2+和Zn2+信号传导中的作用。最后，我们将讨论金属诱导PI3K/Akt激活的后果，重点关注Cu2+和Zn2+对FoxO家族转录因子的调节作用。

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铜离子和锌离子对磷酸肌醇3激酶/蛋白激酶B信号通路的刺激：机制与后果

Stimulation of phosphoinositide 3-kinase/Akt signaling by copper and zinc ions: mechanisms and consequences.

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