期刊
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
卷 139, 期 37, 页码 13243-13248出版社
AMER CHEMICAL SOC
DOI: 10.1021/jacs.7b08446
关键词
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资金
- Israel Science Foundation (ISF)
- Binational Science Foundation (BSF)
- German Israeli Foundation (GIF)
- Israeli National Nanotechnology Initiative (INNI)
- Focal Technology Area (FTA) program: Nanomedicine for Personalized Theranostics
- Leona M. and Harry B. Helmsley Nanotechnology Research Fund
- European Research Council [617445]
- European Research Council (ERC) [617445] Funding Source: European Research Council (ERC)
Chemiluminescent luminophores are considered as one of the most sensitive families of probes for detection and imaging applications. Due to their high signal-to-noise ratios, luminophores with near-infrared (NIR) emission are particularly important for in vivo use. In addition, light with such long wavelength has significantly greater capability for penetration through organic tissue. So far, only a few reports have described the use of chemiluminescence systems for in vivo imaging. Such systems are always based on an energy transfer process from a chemiluminescent precursor to a nearby emissive fluorescent dye. Here, we describe the development of the first chemiluminescent luminophores with a direct mode of NIR light emission that are suitable for use under physiological conditions. Our strategy is based on incorporation of a substituent with an extended pi-electron system on the excited species obtained during the chemiexcitation pathway of Schaap's adamantylidene-dioxetane probe. In this manner, we designed and synthesized two new luminophores with direct light emission wavelength in the NIR region. Masking of the luminophores with analyte-responsive groups has resulted in turn-ON probes for detection and imaging of beta-galactosidase and hydrogen peroxide. The probes' ability to image their corresponding analyte/enzyme was effectively demonstrated in vitro for beta-galactosidase activity and in vivo in a mouse model of inflammation. We anticipate that our strategy for obtaining NIR luminophores will open new doors for further exploration of complex biomolecular systems using non-invasive intravital chemiluminescence imaging techniques.
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