Protein kinase G oxidation is a major cause of injury during sepsis

Olena Rudyk; Alkystis Phinikaridou; Oleksandra Prysyazhna; Joseph R Burgoyne; René M Botnar; Philip Eaton

doi:10.1073/pnas.1301026110

Protein kinase G oxidation is a major cause of injury during sepsis

Olena Rudyk, Alkystis Phinikaridou, Oleksandra Prysyazhna, Joseph R Burgoyne, René M Botnar, Philip Eaton

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Abstract

Sepsis is a common life-threatening clinical syndrome involving complications as a result of severe infection. A cardinal feature of sepsis is inflammation that results in oxidative stress. Sepsis in wild-type mice induced oxidative activation of cGMP-dependent protein kinase 1 alpha (PKG Iα), which increased blood vessel dilation and permeability, and also lowered cardiac output. These responses are typical features of sepsis and their combined effect is a lowering of blood pressure. This hypotension, a hallmark of sepsis, resulted in underperfusion of end organs, resulting in their damage. A central role for PKG Iα oxidative activation in injury is supported by oxidation-resistant Cys42Ser PKG Iα knock-in mice being markedly protected from these clinical indices of injury during sepsis. We conclude that oxidative activation of PKG Iα is a key mediator of hypotension and consequential organ injury during sepsis.

Original language	English
Pages (from-to)	9909-9913
Number of pages	5
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	110
Issue number	24
DOIs	https://doi.org/10.1073/pnas.1301026110
Publication status	E-pub ahead of print - 28 May 2013

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title = "Protein kinase G oxidation is a major cause of injury during sepsis",

abstract = "Sepsis is a common life-threatening clinical syndrome involving complications as a result of severe infection. A cardinal feature of sepsis is inflammation that results in oxidative stress. Sepsis in wild-type mice induced oxidative activation of cGMP-dependent protein kinase 1 alpha (PKG Iα), which increased blood vessel dilation and permeability, and also lowered cardiac output. These responses are typical features of sepsis and their combined effect is a lowering of blood pressure. This hypotension, a hallmark of sepsis, resulted in underperfusion of end organs, resulting in their damage. A central role for PKG Iα oxidative activation in injury is supported by oxidation-resistant Cys42Ser PKG Iα knock-in mice being markedly protected from these clinical indices of injury during sepsis. We conclude that oxidative activation of PKG Iα is a key mediator of hypotension and consequential organ injury during sepsis.",

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AU - Rudyk, Olena

AU - Phinikaridou, Alkystis

AU - Prysyazhna, Oleksandra

AU - Burgoyne, Joseph R

AU - Botnar, René M

AU - Eaton, Philip

PY - 2013/5/28

Y1 - 2013/5/28

N2 - Sepsis is a common life-threatening clinical syndrome involving complications as a result of severe infection. A cardinal feature of sepsis is inflammation that results in oxidative stress. Sepsis in wild-type mice induced oxidative activation of cGMP-dependent protein kinase 1 alpha (PKG Iα), which increased blood vessel dilation and permeability, and also lowered cardiac output. These responses are typical features of sepsis and their combined effect is a lowering of blood pressure. This hypotension, a hallmark of sepsis, resulted in underperfusion of end organs, resulting in their damage. A central role for PKG Iα oxidative activation in injury is supported by oxidation-resistant Cys42Ser PKG Iα knock-in mice being markedly protected from these clinical indices of injury during sepsis. We conclude that oxidative activation of PKG Iα is a key mediator of hypotension and consequential organ injury during sepsis.

AB - Sepsis is a common life-threatening clinical syndrome involving complications as a result of severe infection. A cardinal feature of sepsis is inflammation that results in oxidative stress. Sepsis in wild-type mice induced oxidative activation of cGMP-dependent protein kinase 1 alpha (PKG Iα), which increased blood vessel dilation and permeability, and also lowered cardiac output. These responses are typical features of sepsis and their combined effect is a lowering of blood pressure. This hypotension, a hallmark of sepsis, resulted in underperfusion of end organs, resulting in their damage. A central role for PKG Iα oxidative activation in injury is supported by oxidation-resistant Cys42Ser PKG Iα knock-in mice being markedly protected from these clinical indices of injury during sepsis. We conclude that oxidative activation of PKG Iα is a key mediator of hypotension and consequential organ injury during sepsis.

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DO - 10.1073/pnas.1301026110

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JO - Proceedings of the National Academy of Sciences of the United States of America

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Protein kinase G oxidation is a major cause of injury during sepsis

Abstract

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