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Dahye Kang,† Sheldon T. Cheung,† Andrew Wong-Rolle and Justin Kim*
Dana-Farber Cancer Institute, Department of Cancer Biology, Boston, Massachusetts 02215; Harvard Medical School, Department of Biological Chemistry and Molecular Pharmacology, Boston, Massachusetts, 02115
†D.K. and S.T.C. contributed equally
*Corresponding author
Abstract
Tumor hypoxia induces the large-scale adaptive reprogramming of cancer cells, promoting their transformation into highly invasive and metastatic species that lead to highly negative prognoses for cancer patients. We describe the synthesis and application of a hypoxia-responsive trigger derived from previously inaccessible enamine N-oxide structures. Hypoxia-dependent reduction of this motif by hemeproteins results in the concomitant activation of a caged molecule and a latent electrophile. We exploit the former in a hypoxia-activated prodrug application using a caged staurosporine molecule as a proof-of-principle. We demonstrate the latter in in vivo tumor labeling applications with enamine-N-oxide-modified near-infrared probes. Hypoxia-activated prodrug development has long been complicated by the heterogeneity of tumor hypoxia in patients. The dual drug release and imaging modalities of the highly versatile enamine N-oxide motif present an attractive opportunity for theranostic development that can address the need not only for new therapeutics but paired methods for patient stratification.
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