Rac-dependent feedforward autoactivation of NOX2 leads to oxidative burst

NADPH oxidase 2 (NOX2) produces the superoxide anion radical (O2−), which has functions in both cell signaling and immune defense. NOX2 is a multimeric-protein complex consisting of several protein subunits including the GTPase Rac. NOX2 uniquely facilitates an oxidative burst, which is described by...

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Published inThe Journal of biological chemistry Vol. 297; no. 2; p. 100982
Main Authors Hoang, Hanh My, Johnson, Hope Elizabeth, Heo, Jongyun
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.08.2021
American Society for Biochemistry and Molecular Biology
Subjects
allostery
autoactivation
Cell Line
Cell Line, Tumor
Enzyme Activation
Humans
NADPH Oxidase 2 - immunology
NADPH Oxidase 2 - metabolism
NOX1
NOX2
Oxidation-Reduction
Rac
rac GTP-Binding Proteins - metabolism
Reactive Oxygen Species - metabolism
redox
Signal Transduction
superoxide
Superoxides - metabolism
dHL60
ClC-3
PMA
GEF
SOD
H2O2
redox
SITS
DIDS
Rac
GAP
autoactivation
superoxide
MAP
NOX1
allostery
NOX2
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Abstract NADPH oxidase 2 (NOX2) produces the superoxide anion radical (O2−), which has functions in both cell signaling and immune defense. NOX2 is a multimeric-protein complex consisting of several protein subunits including the GTPase Rac. NOX2 uniquely facilitates an oxidative burst, which is described by initially slow O2− production, which increases over time. The NOX2 oxidative burst is considered critical to immune defense because it enables expedited O2− production in response to infections. However, the mechanism of the initiation and progression of this oxidative burst and its implications for regulation of NOX2 have not been clarified. In this study, we show that the NOX2 oxidative burst is a result of autoactivation of NOX2 coupled with the redox function of Rac. NOX2 autoactivation begins when active Rac triggers NOX2 activation and the subsequent production of O2−, which in turn activates redox-sensitive Rac. This activated Rac further activates NOX2, amplifying the feedforward cycle and resulting in a NOX2-mediated oxidative burst. Using mutagenesis-based kinetic and cell analyses, we show that enzymatic activation of Rac is exclusively responsible for production of the active Rac trigger that initiates NOX2 autoactivation, whereas redox-mediated Rac activation is the main driving force of NOX2 autoactivation and contributes to generation of ∼98% of the active NOX2 in cells. The results of this study provide insight into the regulation of NOX2 function, which could be used to develop therapeutics to control immune responses associated with dysregulated NOX2 oxidative bursts.
AbstractList NADPH oxidase 2 (NOX2) produces the superoxide anion radical (O 2 − ), which has functions in both cell signaling and immune defense. NOX2 is a multimeric-protein complex consisting of several protein subunits including the GTPase Rac. NOX2 uniquely facilitates an oxidative burst, which is described by initially slow O 2 − production, which increases over time. The NOX2 oxidative burst is considered critical to immune defense because it enables expedited O 2 − production in response to infections. However, the mechanism of the initiation and progression of this oxidative burst and its implications for regulation of NOX2 have not been clarified. In this study, we show that the NOX2 oxidative burst is a result of autoactivation of NOX2 coupled with the redox function of Rac. NOX2 autoactivation begins when active Rac triggers NOX2 activation and the subsequent production of O 2 − , which in turn activates redox-sensitive Rac. This activated Rac further activates NOX2, amplifying the feedforward cycle and resulting in a NOX2-mediated oxidative burst. Using mutagenesis-based kinetic and cell analyses, we show that enzymatic activation of Rac is exclusively responsible for production of the active Rac trigger that initiates NOX2 autoactivation, whereas redox-mediated Rac activation is the main driving force of NOX2 autoactivation and contributes to generation of ∼98% of the active NOX2 in cells. The results of this study provide insight into the regulation of NOX2 function, which could be used to develop therapeutics to control immune responses associated with dysregulated NOX2 oxidative bursts.
NADPH oxidase 2 (NOX2) produces the superoxide anion radical (O ), which has functions in both cell signaling and immune defense. NOX2 is a multimeric-protein complex consisting of several protein subunits including the GTPase Rac. NOX2 uniquely facilitates an oxidative burst, which is described by initially slow O production, which increases over time. The NOX2 oxidative burst is considered critical to immune defense because it enables expedited O production in response to infections. However, the mechanism of the initiation and progression of this oxidative burst and its implications for regulation of NOX2 have not been clarified. In this study, we show that the NOX2 oxidative burst is a result of autoactivation of NOX2 coupled with the redox function of Rac. NOX2 autoactivation begins when active Rac triggers NOX2 activation and the subsequent production of O , which in turn activates redox-sensitive Rac. This activated Rac further activates NOX2, amplifying the feedforward cycle and resulting in a NOX2-mediated oxidative burst. Using mutagenesis-based kinetic and cell analyses, we show that enzymatic activation of Rac is exclusively responsible for production of the active Rac trigger that initiates NOX2 autoactivation, whereas redox-mediated Rac activation is the main driving force of NOX2 autoactivation and contributes to generation of ∼98% of the active NOX2 in cells. The results of this study provide insight into the regulation of NOX2 function, which could be used to develop therapeutics to control immune responses associated with dysregulated NOX2 oxidative bursts.
NADPH oxidase 2 (NOX2) produces the superoxide anion radical (O2−), which has functions in both cell signaling and immune defense. NOX2 is a multimeric-protein complex consisting of several protein subunits including the GTPase Rac. NOX2 uniquely facilitates an oxidative burst, which is described by initially slow O2− production, which increases over time. The NOX2 oxidative burst is considered critical to immune defense because it enables expedited O2− production in response to infections. However, the mechanism of the initiation and progression of this oxidative burst and its implications for regulation of NOX2 have not been clarified. In this study, we show that the NOX2 oxidative burst is a result of autoactivation of NOX2 coupled with the redox function of Rac. NOX2 autoactivation begins when active Rac triggers NOX2 activation and the subsequent production of O2−, which in turn activates redox-sensitive Rac. This activated Rac further activates NOX2, amplifying the feedforward cycle and resulting in a NOX2-mediated oxidative burst. Using mutagenesis-based kinetic and cell analyses, we show that enzymatic activation of Rac is exclusively responsible for production of the active Rac trigger that initiates NOX2 autoactivation, whereas redox-mediated Rac activation is the main driving force of NOX2 autoactivation and contributes to generation of ∼98% of the active NOX2 in cells. The results of this study provide insight into the regulation of NOX2 function, which could be used to develop therapeutics to control immune responses associated with dysregulated NOX2 oxidative bursts.
ArticleNumber 100982
Author Hoang, Hanh My
Heo, Jongyun
Johnson, Hope Elizabeth
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  surname: Heo
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Keywords dHL60
ClC-3
PMA
GEF
SOD
H2O2
redox
SITS
DIDS
Rac
GAP
autoactivation
superoxide
MAP
NOX1
allostery
NOX2
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Snippet NADPH oxidase 2 (NOX2) produces the superoxide anion radical (O2−), which has functions in both cell signaling and immune defense. NOX2 is a multimeric-protein...
NADPH oxidase 2 (NOX2) produces the superoxide anion radical (O ), which has functions in both cell signaling and immune defense. NOX2 is a multimeric-protein...
NADPH oxidase 2 (NOX2) produces the superoxide anion radical (O 2 − ), which has functions in both cell signaling and immune defense. NOX2 is a...
SourceID pubmedcentral
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StartPage 100982
SubjectTerms allostery
autoactivation
Cell Line
Cell Line, Tumor
Enzyme Activation
Humans
NADPH Oxidase 2 - immunology
NADPH Oxidase 2 - metabolism
NOX1
NOX2
Oxidation-Reduction
Rac
rac GTP-Binding Proteins - metabolism
Reactive Oxygen Species - metabolism
redox
Signal Transduction
superoxide
Superoxides - metabolism
Title Rac-dependent feedforward autoactivation of NOX2 leads to oxidative burst
URI https://dx.doi.org/10.1016/j.jbc.2021.100982
https://www.ncbi.nlm.nih.gov/pubmed/34293347
https://search.proquest.com/docview/2555112894
https://pubmed.ncbi.nlm.nih.gov/PMC8353492
Volume 297
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