Mapping enzyme activity in living systems by real-time mid-infrared photothermal imaging of nitrile chameleons

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Abstract

Simultaneous spatial mapping of the activity of multiple enzymes in a living system can elucidate their functions in health and disease. However, methods based on monitoring fluorescent substrates are limited. Here, we report the development of nitrile (C≡N)-tagged enzyme activity reporters, named nitrile chameleons, for the peak shift between substrate and product. To image these reporters in real time, we developed a laser-scanning mid-infrared photothermal imaging system capable of imaging the enzymatic substrates and products at a resolution of 300 nm. We show that when combined, these tools can map the activity distribution of different enzymes and measure their relative catalytic efficiency in living systems such as cancer cells, Caenorhabditis elegans, and brain tissues, and can be used to directly visualize caspase–phosphatase interactions during apoptosis. Our method is generally applicable to a broad category of enzymes and will enable new analyses of enzymes in their native context.

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He, H., Yin, J., Li, M., Dessai, C. V. P., Yi, M., Teng, X., … Cheng, J. X. (2024). Mapping enzyme activity in living systems by real-time mid-infrared photothermal imaging of nitrile chameleons. Nature Methods, 21(2), 342–352. https://doi.org/10.1038/s41592-023-02137-x

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