Fluorescence-Based Nitric Oxide Sensing by Cu(II) Complexes That Can Be Trapped in Living Cells
Author(s)
McQuade, Lindsey E.; Lippard, Stephen J.
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A series of symmetrical, fluorescein-derived ligands appended with two derivatized 2-methyl-8-aminoquinolines were prepared and spectroscopically characterized. The ligands FL2, FL2E, and FL2A were designed to improve the dynamic range of previously described asymmetric systems, and the copper complex Cu2(FL2E) was constructed as a trappable NO probe that is hydrolyzed intracellularly to form Cu2(FL2A). The ligands themselves are only weakly emissive, and the completely quenched Cu(II) complexes, generated in situ by combining each ligand with 2 equiv of CuCl2, were investigated as fluorescent probes for nitric oxide. Upon introduction of excess NO under anaerobic conditions to buffered solutions of Cu2(FL2), Cu2(FL2E), and Cu2(FL2A), the fluorescence increased by factors of 23 ± 3, 17 ± 2, and 27 ± 3, respectively. The corresponding rate constants for fluorescence turn-on were determined to be 0.4 ± 0.2, 0.35 ± 0.05, and 0.6 ± 0.1 min−1. The probes are highly specific for NO over other biologically relevant reactive oxygen and nitrogen species, as well as Zn(II), the metal ion for which similar probes were designed to detect.
Date issued
2010-08Department
Massachusetts Institute of Technology. Department of ChemistryJournal
Inorganic Chemistry
Publisher
American Chemical Society
Citation
McQuade, Lindsey E., and Stephen J. Lippard. “Fluorescence-Based Nitric Oxide Sensing by Cu(II) Complexes That Can Be Trapped in Living Cells.” Inorganic Chemistry 49.16 (2010): 7464-7471.
Version: Author's final manuscript
ISSN
0020-1669
1520-510X