Sensors, Imaging Agents, and Theranostics to Help Understand and Treat Reactive Oxygen Species Related Diseases

Reactive oxygen species (ROS) consist of a diverse range of oxidative small molecular ions and free radicals that are produced throughout the body during certain biological processes. Due to their high reactivity, these molecules result in the damage of tissues and cells. Therefore, ROS have been im...

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Published inSmall methods Vol. 3; no. 7
Main Authors Yan, Kai‐Cheng, Sedgwick, Adam C., Zang, Yi, Chen, Guo‐Rong, He, Xiao‐Peng, Li, Jia, Yoon, Juyoung, James, Tony D.
Format Journal Article
LanguageEnglish
Published 10.07.2019
Subjects
fluorescence
imaging agents
ROS
sensors
theranostics
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Abstract Reactive oxygen species (ROS) consist of a diverse range of oxidative small molecular ions and free radicals that are produced throughout the body during certain biological processes. Due to their high reactivity, these molecules result in the damage of tissues and cells. Therefore, ROS have been implicated in an array of diseases including cancer, inflammation, and neurodegenerative diseases such as Parkinson's disease and Alzheimer's disease. Owing to the simplicity, sensitivity, and selectivity of fluorescence‐based strategies, many small‐molecular sensors or imaging agents have been developed to sense and visualize ROS both in vitro and in vivo. Likewise, activatable drug delivery and prodrug systems that can be triggered by ROS for disease theranostics (diagnostic and therapeutic combined) have been developed. Herein, recently developed fluorescence‐based sensing and imaging agents for the detection of ROS both intracellularly and in vivo are summarized. In addition, drug delivery, which require activation by ROS to achieve disease theranostics is also discussed. Reactive oxygen species (ROS) are vital for a myriad of biological processes, and mounting evidence has suggested their crucial role for the progression of some serious diseases. Here, state‐of‐the‐art fluorescent probes to understand ROS‐relevant diseases are summarized. Functional materials or prodrugs activatable by endogenous ROS or by light activation of photosensitizers to produce ROS for disease theranostics are also discussed.
AbstractList Reactive oxygen species (ROS) consist of a diverse range of oxidative small molecular ions and free radicals that are produced throughout the body during certain biological processes. Due to their high reactivity, these molecules result in the damage of tissues and cells. Therefore, ROS have been implicated in an array of diseases including cancer, inflammation, and neurodegenerative diseases such as Parkinson's disease and Alzheimer's disease. Owing to the simplicity, sensitivity, and selectivity of fluorescence‐based strategies, many small‐molecular sensors or imaging agents have been developed to sense and visualize ROS both in vitro and in vivo. Likewise, activatable drug delivery and prodrug systems that can be triggered by ROS for disease theranostics (diagnostic and therapeutic combined) have been developed. Herein, recently developed fluorescence‐based sensing and imaging agents for the detection of ROS both intracellularly and in vivo are summarized. In addition, drug delivery, which require activation by ROS to achieve disease theranostics is also discussed. Reactive oxygen species (ROS) are vital for a myriad of biological processes, and mounting evidence has suggested their crucial role for the progression of some serious diseases. Here, state‐of‐the‐art fluorescent probes to understand ROS‐relevant diseases are summarized. Functional materials or prodrugs activatable by endogenous ROS or by light activation of photosensitizers to produce ROS for disease theranostics are also discussed.
Reactive oxygen species (ROS) consist of a diverse range of oxidative small molecular ions and free radicals that are produced throughout the body during certain biological processes. Due to their high reactivity, these molecules result in the damage of tissues and cells. Therefore, ROS have been implicated in an array of diseases including cancer, inflammation, and neurodegenerative diseases such as Parkinson's disease and Alzheimer's disease. Owing to the simplicity, sensitivity, and selectivity of fluorescence‐based strategies, many small‐molecular sensors or imaging agents have been developed to sense and visualize ROS both in vitro and in vivo. Likewise, activatable drug delivery and prodrug systems that can be triggered by ROS for disease theranostics (diagnostic and therapeutic combined) have been developed. Herein, recently developed fluorescence‐based sensing and imaging agents for the detection of ROS both intracellularly and in vivo are summarized. In addition, drug delivery, which require activation by ROS to achieve disease theranostics is also discussed.
Author He, Xiao‐Peng
Yoon, Juyoung
Yan, Kai‐Cheng
Li, Jia
Chen, Guo‐Rong
Sedgwick, Adam C.
James, Tony D.
Zang, Yi
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  surname: Yan
  fullname: Yan, Kai‐Cheng
  organization: East China University of Science and Technology
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  givenname: Adam C.
  surname: Sedgwick
  fullname: Sedgwick, Adam C.
  organization: University of Texas at Austin
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  givenname: Yi
  surname: Zang
  fullname: Zang, Yi
  organization: Chinese Academy of Sciences
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  givenname: Guo‐Rong
  surname: Chen
  fullname: Chen, Guo‐Rong
  organization: East China University of Science and Technology
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  orcidid: 0000-0002-8736-3511
  surname: He
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  organization: East China University of Science and Technology
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  surname: Li
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  surname: Yoon
  fullname: Yoon, Juyoung
  email: jyoon@ewha.ac.kr
  organization: Ewha Womans University
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  givenname: Tony D.
  surname: James
  fullname: James, Tony D.
  email: t.d.james@bath.ac.uk
  organization: University of Bath
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Snippet Reactive oxygen species (ROS) consist of a diverse range of oxidative small molecular ions and free radicals that are produced throughout the body during...
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wiley
SourceType Enrichment Source
Index Database
Publisher
SubjectTerms fluorescence
imaging agents
ROS
sensors
theranostics
Title Sensors, Imaging Agents, and Theranostics to Help Understand and Treat Reactive Oxygen Species Related Diseases
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