Meghan B. Ward scite author profile

The overproduction of reactive oxygen species has been linked to a wide array of health disorders. The ability to noninvasively monitor oxidative stress in vivo could provide substantial insight into the progression of these conditions and, in turn, could facilitate the development of better diagnosis and treatment options. A mononuclear Mn(II) complex with the redox-active ligand N,N'-bis(2,5-dihydroxybenzyl)-N,N'-bis(2-pyridinylmethyl)-1,2-ethanediamine (Hqtp2) was made and characterized. A previously prepared Mn(II) complex with a ligand containing a single quinol subunit was found to display a modest T-derived relaxivity response to HO. The introduction of a second redox-active quinol both substantially improves the relaxivity response of the complex to HO and reduces the cytotoxicity of the sensor but renders the complex more susceptible to transmetalation. The addition of HO partially oxidizes the quinol subunits to para-quinones, concomitantly increasing the r from 5.46 mM s to 7.17 mM s. The oxidation of the ligand enables more water molecules to coordinate to the metal ion, providing an explanation for the enhanced relaxivity. That the diquinol complex is only partially oxidized by HO is attributed to its activity as an antioxidant; the complex can both catalytically degrade superoxide and serve as a hydrogen atom donor.

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Superoxide dismutase activity enabled by a redox-active ligand rather than metal

Ward

Scheitler

et al. 2018

Nature Chem

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Meghan B. Ward

Adding a Second Quinol to a Redox-Responsive MRI Contrast Agent Improves Its Relaxivity Response to H₂O₂

Superoxide dismutase activity enabled by a redox-active ligand rather than metal

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Meghan B. Ward

Adding a Second Quinol to a Redox-Responsive MRI Contrast Agent Improves Its Relaxivity Response to H2O2

Superoxide dismutase activity enabled by a redox-active ligand rather than metal

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Adding a Second Quinol to a Redox-Responsive MRI Contrast Agent Improves Its Relaxivity Response to H₂O₂