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A chemoproteomic platform to quantitatively map targets of lipid-derived electrophiles.


ABSTRACT: Cells produce electrophilic products with the potential to modify and affect the function of proteins. Chemoproteomic methods have provided a means to qualitatively inventory proteins targeted by endogenous electrophiles; however, ascertaining the potency and specificity of these reactions to identify the sites in the proteome that are most sensitive to electrophilic modification requires more quantitative methods. Here we describe a competitive activity-based profiling method for quantifying the reactivity of electrophilic compounds against >1,000 cysteines in parallel in the human proteome. Using this approach, we identified a select set of proteins that constitute 'hot spots' for modification by various lipid-derived electrophiles, including the oxidative stress product 4-hydroxy-2-nonenal (HNE). We show that one of these proteins, ZAK kinase, is labeled by HNE on a conserved, active site-proximal cysteine and that the resulting enzyme inhibition creates a negative feedback mechanism that can suppress the activation of JNK pathways normally induced by oxidative stress.

SUBMITTER: Wang C 

PROVIDER: S-EPMC3901407 | biostudies-literature | 2014 Jan

REPOSITORIES: biostudies-literature

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A chemoproteomic platform to quantitatively map targets of lipid-derived electrophiles.

Wang Chu C   Weerapana Eranthie E   Blewett Megan M MM   Cravatt Benjamin F BF  

Nature methods 20131201 1


Cells produce electrophilic products with the potential to modify and affect the function of proteins. Chemoproteomic methods have provided a means to qualitatively inventory proteins targeted by endogenous electrophiles; however, ascertaining the potency and specificity of these reactions to identify the sites in the proteome that are most sensitive to electrophilic modification requires more quantitative methods. Here we describe a competitive activity-based profiling method for quantifying th  ...[more]

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