蛋白激酶 G Ia 中的半胱氨酸氧化还原传感器可实现氧化剂诱导的激活。

Cysteine redox sensor in PKGIa enables oxidant-induced activation.

作者信息

Burgoyne Joseph R, Madhani Melanie, Cuello Friederike, Charles Rebecca L, Brennan Jonathan P, Schröder Ewald, Browning Darren D, Eaton Philip

机构信息

Department of Cardiology, Cardiovascular Division, King's College London, Rayne Institute, St. Thomas' Hospital, London SE1 7EH, UK.

出版信息

Science. 2007 Sep 7;317(5843):1393-7. doi: 10.1126/science.1144318. Epub 2007 Aug 23.

DOI:10.1126/science.1144318

PMID:17717153

Abstract

Changes in the concentration of oxidants in cells can regulate biochemical signaling mechanisms that control cell function. We have found that guanosine 3',5'-monophosphate (cGMP)-dependent protein kinase (PKG) functions directly as a redox sensor. The Ialpha isoform, PKGIalpha, formed an interprotein disulfide linking its two subunits in cells exposed to exogenous hydrogen peroxide. This oxidation directly activated the kinase in vitro, and in rat cells and tissues. The affinity of the kinase for substrates it phosphorylates was enhanced by disulfide formation. This oxidation-induced activation represents an alternate mechanism for regulation along with the classical activation involving nitric oxide and cGMP. This mechanism underlies cGMP-independent vasorelaxation in response to oxidants in the cardiovascular system and provides a molecular explantion for how hydrogen peroxide can operate as an endothelium-derived hyperpolarizing factor.

摘要

细胞中氧化剂浓度的变化可调节控制细胞功能的生化信号传导机制。我们发现，鸟苷3',5'-单磷酸（cGMP）依赖性蛋白激酶（PKG）直接作为一种氧化还原传感器发挥作用。Iα亚型，即PKGIα，在暴露于外源性过氧化氢的细胞中形成了连接其两个亚基的蛋白间二硫键。这种氧化在体外以及大鼠细胞和组织中直接激活了该激酶。二硫键的形成增强了该激酶对其磷酸化底物的亲和力。这种氧化诱导的激活代表了一种与涉及一氧化氮和cGMP的经典激活不同的调节机制。该机制是心血管系统中对氧化剂产生的非cGMP依赖性血管舒张的基础，并为过氧化氢如何作为内皮衍生的超极化因子发挥作用提供了分子解释。

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蛋白激酶 G Ia 中的半胱氨酸氧化还原传感器可实现氧化剂诱导的激活。

Cysteine redox sensor in PKGIa enables oxidant-induced activation.

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