Activatable Multiplexed 19F Magnetic Resonance Imaging Visualizes Reactive Oxygen and Nitrogen Species in Drug-Induced Acute Kidney Injury

In vivo levels of reactive oxygen species (ROS) and reactive nitrogen species (RNS) are critical to many physiological and pathological processes. Because of the distinct differences in their biological generation and effects, simultaneously visualizing both of them could help deepen our insights in...

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Published in	Analytical chemistry (Washington) Vol. 93; no. 49; pp. 16552 - 16561
Main Authors	Li, Ao, Luo, Xiangjie, Li, Lingxuan, Chen, Dongxia, Liu, Xing, Yang, Zhaoxuan, Yang, Lijiao, Gao, Jinhao, Lin, Hongyu
Format	Journal Article
Language	English
Published	Washington American Chemical Society 14.12.2021
Subjects	acute kidney injury analytical chemistry Biocompatibility Biological activity Biological effects Chemistry Differentiation Drug development Kidneys Magnetic resonance imaging magnetism Medical imaging Multiplexing Nitrogen oxygen Probes Reactive nitrogen species Reactive oxygen species Real time Toxicity
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Abstract	In vivo levels of reactive oxygen species (ROS) and reactive nitrogen species (RNS) are critical to many physiological and pathological processes. Because of the distinct differences in their biological generation and effects, simultaneously visualizing both of them could help deepen our insights into the mechanistic details of these processes. However, real-time and deep-tissue imaging and differentiation of ROS- and RNS-related molecular events in living subjects still remain a challenge. Here, we report the development of two activatable 19F magnetic resonance imaging (MRI) molecular probes with different 19F chemical shifts and specific responsive behaviors for simultaneous in vivo detection and deep-tissue imaging of O2 •– and ONOO–. These probes are capable of real-time visualization and differentiation of O2 •– and ONOO– in living mice with drug-induced acute kidney injury by interference-free multiplexed hot-spot 19F MRI, illustrating the potential of this technique for background-free real-time imaging of diverse biological processes, accurate diagnosis of various diseases in deep tissues, and rapid toxicity evaluation of assorted drugs.
AbstractList	In vivo levels of reactive oxygen species (ROS) and reactive nitrogen species (RNS) are critical to many physiological and pathological processes. Because of the distinct differences in their biological generation and effects, simultaneously visualizing both of them could help deepen our insights into the mechanistic details of these processes. However, real-time and deep-tissue imaging and differentiation of ROS- and RNS-related molecular events in living subjects still remain a challenge. Here, we report the development of two activatable 19F magnetic resonance imaging (MRI) molecular probes with different 19F chemical shifts and specific responsive behaviors for simultaneous in vivo detection and deep-tissue imaging of O2•- and ONOO-. These probes are capable of real-time visualization and differentiation of O2•- and ONOO- in living mice with drug-induced acute kidney injury by interference-free multiplexed hot-spot 19F MRI, illustrating the potential of this technique for background-free real-time imaging of diverse biological processes, accurate diagnosis of various diseases in deep tissues, and rapid toxicity evaluation of assorted drugs.In vivo levels of reactive oxygen species (ROS) and reactive nitrogen species (RNS) are critical to many physiological and pathological processes. Because of the distinct differences in their biological generation and effects, simultaneously visualizing both of them could help deepen our insights into the mechanistic details of these processes. However, real-time and deep-tissue imaging and differentiation of ROS- and RNS-related molecular events in living subjects still remain a challenge. Here, we report the development of two activatable 19F magnetic resonance imaging (MRI) molecular probes with different 19F chemical shifts and specific responsive behaviors for simultaneous in vivo detection and deep-tissue imaging of O2•- and ONOO-. These probes are capable of real-time visualization and differentiation of O2•- and ONOO- in living mice with drug-induced acute kidney injury by interference-free multiplexed hot-spot 19F MRI, illustrating the potential of this technique for background-free real-time imaging of diverse biological processes, accurate diagnosis of various diseases in deep tissues, and rapid toxicity evaluation of assorted drugs. In vivo levels of reactive oxygen species (ROS) and reactive nitrogen species (RNS) are critical to many physiological and pathological processes. Because of the distinct differences in their biological generation and effects, simultaneously visualizing both of them could help deepen our insights into the mechanistic details of these processes. However, real-time and deep-tissue imaging and differentiation of ROS- and RNS-related molecular events in living subjects still remain a challenge. Here, we report the development of two activatable 19F magnetic resonance imaging (MRI) molecular probes with different 19F chemical shifts and specific responsive behaviors for simultaneous in vivo detection and deep-tissue imaging of O2•– and ONOO–. These probes are capable of real-time visualization and differentiation of O2•– and ONOO– in living mice with drug-induced acute kidney injury by interference-free multiplexed hot-spot 19F MRI, illustrating the potential of this technique for background-free real-time imaging of diverse biological processes, accurate diagnosis of various diseases in deep tissues, and rapid toxicity evaluation of assorted drugs. In vivo levels of reactive oxygen species (ROS) and reactive nitrogen species (RNS) are critical to many physiological and pathological processes. Because of the distinct differences in their biological generation and effects, simultaneously visualizing both of them could help deepen our insights into the mechanistic details of these processes. However, real-time and deep-tissue imaging and differentiation of ROS- and RNS-related molecular events in living subjects still remain a challenge. Here, we report the development of two activatable ¹⁹F magnetic resonance imaging (MRI) molecular probes with different ¹⁹F chemical shifts and specific responsive behaviors for simultaneous in vivo detection and deep-tissue imaging of O₂•– and ONOO–. These probes are capable of real-time visualization and differentiation of O₂•– and ONOO– in living mice with drug-induced acute kidney injury by interference-free multiplexed hot-spot ¹⁹F MRI, illustrating the potential of this technique for background-free real-time imaging of diverse biological processes, accurate diagnosis of various diseases in deep tissues, and rapid toxicity evaluation of assorted drugs.
Author	Luo, Xiangjie Liu, Xing Chen, Dongxia Lin, Hongyu Li, Ao Yang, Zhaoxuan Li, Lingxuan Yang, Lijiao Gao, Jinhao
AuthorAffiliation	Fuzhou University, Fujian Science & Technology Innovation Laboratory for Optoelectronic Information of China MOE Key Laboratory for Analytical Science of Food Safety and Biology, College of Chemistry The MOE Key Laboratory of Spectrochemical Analysis & Instrumentation, Fujian Provincial Key Laboratory of Chemical Biology, and Department of Chemical Biology, College of Chemistry and Chemical Engineering
AuthorAffiliation_xml	– name: The MOE Key Laboratory of Spectrochemical Analysis & Instrumentation, Fujian Provincial Key Laboratory of Chemical Biology, and Department of Chemical Biology, College of Chemistry and Chemical Engineering – name: Fuzhou University, Fujian Science & Technology Innovation Laboratory for Optoelectronic Information of China – name: MOE Key Laboratory for Analytical Science of Food Safety and Biology, College of Chemistry
Author_xml	– sequence: 1 givenname: Ao surname: Li fullname: Li, Ao organization: The MOE Key Laboratory of Spectrochemical Analysis & Instrumentation, Fujian Provincial Key Laboratory of Chemical Biology, and Department of Chemical Biology, College of Chemistry and Chemical Engineering – sequence: 2 givenname: Xiangjie surname: Luo fullname: Luo, Xiangjie organization: The MOE Key Laboratory of Spectrochemical Analysis & Instrumentation, Fujian Provincial Key Laboratory of Chemical Biology, and Department of Chemical Biology, College of Chemistry and Chemical Engineering – sequence: 3 givenname: Lingxuan surname: Li fullname: Li, Lingxuan organization: The MOE Key Laboratory of Spectrochemical Analysis & Instrumentation, Fujian Provincial Key Laboratory of Chemical Biology, and Department of Chemical Biology, College of Chemistry and Chemical Engineering – sequence: 4 givenname: Dongxia surname: Chen fullname: Chen, Dongxia organization: The MOE Key Laboratory of Spectrochemical Analysis & Instrumentation, Fujian Provincial Key Laboratory of Chemical Biology, and Department of Chemical Biology, College of Chemistry and Chemical Engineering – sequence: 5 givenname: Xing surname: Liu fullname: Liu, Xing organization: The MOE Key Laboratory of Spectrochemical Analysis & Instrumentation, Fujian Provincial Key Laboratory of Chemical Biology, and Department of Chemical Biology, College of Chemistry and Chemical Engineering – sequence: 6 givenname: Zhaoxuan surname: Yang fullname: Yang, Zhaoxuan organization: The MOE Key Laboratory of Spectrochemical Analysis & Instrumentation, Fujian Provincial Key Laboratory of Chemical Biology, and Department of Chemical Biology, College of Chemistry and Chemical Engineering – sequence: 7 givenname: Lijiao surname: Yang fullname: Yang, Lijiao organization: Fuzhou University, Fujian Science & Technology Innovation Laboratory for Optoelectronic Information of China – sequence: 8 givenname: Jinhao orcidid: 0000-0003-3215-7013 surname: Gao fullname: Gao, Jinhao email: jhgao@xmu.edu.cn organization: The MOE Key Laboratory of Spectrochemical Analysis & Instrumentation, Fujian Provincial Key Laboratory of Chemical Biology, and Department of Chemical Biology, College of Chemistry and Chemical Engineering – sequence: 9 givenname: Hongyu orcidid: 0000-0002-5675-8537 surname: Lin fullname: Lin, Hongyu email: hylin007@xmu.edu.cn organization: The MOE Key Laboratory of Spectrochemical Analysis & Instrumentation, Fujian Provincial Key Laboratory of Chemical Biology, and Department of Chemical Biology, College of Chemistry and Chemical Engineering
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SubjectTerms	acute kidney injury analytical chemistry Biocompatibility Biological activity Biological effects Chemistry Differentiation Drug development Kidneys Magnetic resonance imaging magnetism Medical imaging Multiplexing Nitrogen oxygen Probes Reactive nitrogen species Reactive oxygen species Real time Toxicity
Title	Activatable Multiplexed 19F Magnetic Resonance Imaging Visualizes Reactive Oxygen and Nitrogen Species in Drug-Induced Acute Kidney Injury
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