1. Optogenetic control of focal adhesion kinase signaling
- Author
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Michael T. Coats, Wilfried Weber, Gerald Radziwill, Maximilian Hörner, David R. Stocker, Wignand W. D. Mühlhäuser, and Claire Chatelle
- Subjects
0301 basic medicine ,Light ,Recombinant Fusion Proteins ,PTK2 ,Integrin ,Transfection ,Focal adhesion ,03 medical and health sciences ,Growth factor receptor ,Cell Adhesion ,Humans ,Anoikis ,Phosphorylation ,Paxillin ,Feedback, Physiological ,PTK2B ,biology ,Cell Biology ,Cell biology ,Cryptochromes ,Optogenetics ,Crk-Associated Substrate Protein ,HEK293 Cells ,030104 developmental biology ,Gene Expression Regulation ,Focal Adhesion Kinase 1 ,biology.protein ,Stress, Mechanical ,HeLa Cells ,Plasmids ,Signal Transduction ,Proto-oncogene tyrosine-protein kinase Src - Abstract
Focal adhesion kinase (FAK) integrates signaling from integrins, growth factor receptors and mechanical stress to control cell adhesion, motility, survival and proliferation. Here, we developed a single-component, photo-activatable FAK, termed optoFAK, by using blue light-induced oligomerization of cryptochrome 2 (CRY2) to activate FAK-CRY2 fusion proteins. OptoFAK functions uncoupled from physiological stimuli and activates downstream signaling rapidly and reversibly upon blue light exposure. OptoFAK stimulates SRC creating a positive feedback loop on FAK activation, facilitating phosphorylation of paxillin and p130Cas in adherent cells. In detached cells or in mechanically stressed adherent cells, optoFAK is autophosphorylated upon exposure to blue light, however, downstream signaling is hampered indicating that the accessibility to these substrates is disturbed. OptoFAK may prove to be a useful tool to study the biological function of FAK in growth factor and integrin signaling, tension-mediated focal adhesion maturation or anoikis and could additionally serve as test system for kinase inhibitors.
- Published
- 2018
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