Literature DB >> 28092360

Chemical proteomics reveals ADP-ribosylation of small GTPases during oxidative stress.

Nathan P Westcott1, Joseph P Fernandez2, Henrik Molina2, Howard C Hang1.   

Abstract

ADP-ribosylation is a post-translational modification that is known to be involved in cellular homeostasis and stress but has been challenging to analyze biochemically. To facilitate the detection of ADP-ribosylated proteins, we show that an alkyne-adenosine analog, N6-propargyl adenosine (N6pA), is metabolically incorporated in mammalian cells and enables fluorescence detection and proteomic analysis of ADP-ribosylated proteins. Notably, our analysis of N6pA-labeled proteins that are upregulated by oxidative stress revealed differential ADP-ribosylation of small GTPases. We discovered that oxidative stress induced ADP-ribosylation of Hras on Cys181 and Cys184 in the C-terminal hypervariable region, which are normally S-fatty-acylated. Downstream Hras signaling is impaired by ADP-ribosylation during oxidative stress, but is rescued by ADP-ribosyltransferase inhibitors. Our study demonstrates that ADP-ribosylation of small GTPases not only is mediated by bacterial toxins but is endogenously regulated in mammalian cells. N6pA provides a useful tool to characterize ADP-ribosylated proteins and their regulatory mechanisms in cells.

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Year:  2017        PMID: 28092360      PMCID: PMC5310985          DOI: 10.1038/nchembio.2280

Source DB:  PubMed          Journal:  Nat Chem Biol        ISSN: 1552-4450            Impact factor:   15.040


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