AI Article Synopsis
- The abnormal activation of the epidermal growth factor receptor (EGFR) plays a significant role in cancer invasion and metastasis, necessitating the development of methods to study EGFR activation in various environments.
- Researchers designed a two-step photoaffinity probe called HX101, which uses a diazirine for photoactivation and an alkyne for introducing different reporter groups, allowing for efficient visualization of active EGFR in cancer cells and tissue slices.
- HX101 has demonstrated its versatility through various imaging techniques, including super-resolution microscopy and flow cytometry, and is capable of assessing EGFR activity in live cells and tumor tissues, potentially enhancing the prediction of treatment responses in lung cancer patients.
Article Abstract
The abnormal activation of the epidermal growth factor receptor (EGFR) is strongly associated with cancer invasion and metastasis. Tools and methods are required to study and visualize EGFR activation under (patho)physiological conditions. Here, we report the development of a two-step photoaffinity probe (HX101) by incorporation of a diazirine as a photoreactive group and an alkyne as a ligation handle to quantitively study EGFR kinase activity in native cellular contexts and human tissue slices. HX101 is a multifunctional probe based on the pharmacophore of the EGFR tyrosine kinase inhibitor (EGFR-TKI) and can covalently target the EGFR upon photoactivation. The incorporated alkyne serves as a versatile ligation handle and enables HX101 to introduce distinct reporter groups (e.g., fluorophore and biotin) via click chemistry. With variable reporter tags, HX101 enables visualization and target engagement studies of the active EGFR in a panel of cancer cells using flow cytometry, confocal microscopy, and mass spectrometry. Furthermore, as a proof of concept study, we applied HX101 in stochastic optical reconstruction microscopy super-resolution imaging to study EGFR activation in live cells. Importantly, HX101 was also applied to visualize EGFR mutant activity in tumor tissues from lung cancer patients for prediction of EGFR-TKI sensitivity. Altogether, our results demonstrate the wide application of a selective photoaffinity probe in multi-modal assessment/visualization of EGFR activity in both live cells and tissue slices. We anticipate that these diverse applications can facilitate the translation of a strategically functionalized probe into medical use.
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| http://dx.doi.org/10.1021/acs.analchem.2c01340 | DOI Listing |
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