19F PARASHIFT Probes for Magnetic Resonance Detection of H2O2 and Peroxidase Activity

Meng Yu; Bailey S. Bouley; Da Xie; José S. Enriquez; Emily L. Que

doi:10.1021/jacs.8b05685

¹⁹F PARASHIFT Probes for Magnetic Resonance Detection of H₂O₂ and Peroxidase Activity

Meng Yu, Bailey S. Bouley, Da Xie, José S. Enriquez, Emily L. Que^*

^*Corresponding author for this work

University of Texas at Austin

Research output: Contribution to journal › Article › peer-review

60 Citations (Scopus)

Abstract

Elevated levels of reactive oxygen species and peroxidase expression are often associated with inflammation and inflammatory diseases. We developed two novel Co(II) complexes that can be used to detect oxidative activity associated with inflammation using ¹⁹F magnetic resonance imaging (MRI). These agents display a large change in ¹⁹F chemical shift upon oxidation from Co(II) to Co(III), facilitating selective visualization of both species using chemical shift selective pulse sequences. This large chemical shift change is attributed to a large magnetic anisotropy in the high spin Co(II) complexes. Importantly, the differing reactivity of the two agents allows for detection of either H₂O₂ production and/or the activity of peroxidase enzymes, providing two useful platforms for ¹⁹F MR hot spot imaging of oxidative events associated with biological inflammation.

Original language	English
Pages (from-to)	10546-10552
Number of pages	7
Journal	Journal of the American Chemical Society
Volume	140
Issue number	33
DOIs	https://doi.org/10.1021/jacs.8b05685
Publication status	Published - 22 Aug 2018
Externally published	Yes

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title = "19F PARASHIFT Probes for Magnetic Resonance Detection of H2O2 and Peroxidase Activity",

abstract = "Elevated levels of reactive oxygen species and peroxidase expression are often associated with inflammation and inflammatory diseases. We developed two novel Co(II) complexes that can be used to detect oxidative activity associated with inflammation using 19F magnetic resonance imaging (MRI). These agents display a large change in 19F chemical shift upon oxidation from Co(II) to Co(III), facilitating selective visualization of both species using chemical shift selective pulse sequences. This large chemical shift change is attributed to a large magnetic anisotropy in the high spin Co(II) complexes. Importantly, the differing reactivity of the two agents allows for detection of either H2O2 production and/or the activity of peroxidase enzymes, providing two useful platforms for 19F MR hot spot imaging of oxidative events associated with biological inflammation.",

author = "Meng Yu and Bouley, {Bailey S.} and Da Xie and Enriquez, {Jos{\'e} S.} and Que, {Emily L.}",

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T1 - 19F PARASHIFT Probes for Magnetic Resonance Detection of H2O2 and Peroxidase Activity

AU - Yu, Meng

AU - Bouley, Bailey S.

AU - Xie, Da

AU - Enriquez, José S.

AU - Que, Emily L.

PY - 2018/8/22

Y1 - 2018/8/22

N2 - Elevated levels of reactive oxygen species and peroxidase expression are often associated with inflammation and inflammatory diseases. We developed two novel Co(II) complexes that can be used to detect oxidative activity associated with inflammation using 19F magnetic resonance imaging (MRI). These agents display a large change in 19F chemical shift upon oxidation from Co(II) to Co(III), facilitating selective visualization of both species using chemical shift selective pulse sequences. This large chemical shift change is attributed to a large magnetic anisotropy in the high spin Co(II) complexes. Importantly, the differing reactivity of the two agents allows for detection of either H2O2 production and/or the activity of peroxidase enzymes, providing two useful platforms for 19F MR hot spot imaging of oxidative events associated with biological inflammation.

AB - Elevated levels of reactive oxygen species and peroxidase expression are often associated with inflammation and inflammatory diseases. We developed two novel Co(II) complexes that can be used to detect oxidative activity associated with inflammation using 19F magnetic resonance imaging (MRI). These agents display a large change in 19F chemical shift upon oxidation from Co(II) to Co(III), facilitating selective visualization of both species using chemical shift selective pulse sequences. This large chemical shift change is attributed to a large magnetic anisotropy in the high spin Co(II) complexes. Importantly, the differing reactivity of the two agents allows for detection of either H2O2 production and/or the activity of peroxidase enzymes, providing two useful platforms for 19F MR hot spot imaging of oxidative events associated with biological inflammation.

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¹⁹F PARASHIFT Probes for Magnetic Resonance Detection of H₂O₂ and Peroxidase Activity

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