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Co-opting a Bioorthogonal Reaction for Oncometabolite Detection.


ABSTRACT: Dysregulated metabolism is a hallmark of many diseases, including cancer. Methods to fluorescently detect metabolites have the potential to enable new approaches to cancer detection and imaging. However, fluorescent sensing methods for naturally occurring cellular metabolites are relatively unexplored. Here we report the development of a chemical approach to detect the oncometabolite fumarate. Our strategy exploits a known bioorthogonal reaction, the 1,3-dipolar cycloaddition of nitrileimines and electron-poor olefins, to detect fumarate via fluorescent pyrazoline cycloadduct formation. We demonstrate hydrazonyl chlorides serve as readily accessible nitrileimine precursors, whose reactivity and spectral properties can be tuned to enable detection of fumarate and other dipolarophile metabolites. Finally, we show this reaction can be used to detect enzyme activity changes caused by mutations in fumarate hydratase, which underlie the familial cancer predisposition syndrome hereditary leiomyomatosis and renal cell cancer. Our studies define a novel intersection of bioorthogonal chemistry and metabolite reactivity that may be harnessed to enable biological profiling, imaging, and diagnostic applications.

SUBMITTER: Zengeya TT 

PROVIDER: S-EPMC6377280 | biostudies-literature | 2016 Dec

REPOSITORIES: biostudies-literature

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Co-opting a Bioorthogonal Reaction for Oncometabolite Detection.

Zengeya Thomas T TT   Garlick Julie M JM   Kulkarni Rhushikesh A RA   Miley Mikayla M   Roberts Allison M AM   Yang Youfeng Y   Crooks Daniel R DR   Sourbier Carole C   Linehan W Marston WM   Meier Jordan L JL  

Journal of the American Chemical Society 20161130 49


Dysregulated metabolism is a hallmark of many diseases, including cancer. Methods to fluorescently detect metabolites have the potential to enable new approaches to cancer detection and imaging. However, fluorescent sensing methods for naturally occurring cellular metabolites are relatively unexplored. Here we report the development of a chemical approach to detect the oncometabolite fumarate. Our strategy exploits a known bioorthogonal reaction, the 1,3-dipolar cycloaddition of nitrileimines an  ...[more]

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