Qijie Gong scite author profile

Elevated levels of reactive oxygen species (ROS) have commonly been implicated in a variety of diseases, including cancer, inflammation, and neurodegenerative diseases. In light of significant differences in ROS levels between the nonpathogenic and pathological tissues, an increasing number of ROS-responsive prodrugs, probes, and theranostic prodrugs have been developed for the targeted treatment and precise diagnosis of ROS-related diseases. This review will summarize and provide insight into recent advances in ROS-responsive prodrugs, fluorescent probes, and theranostic prodrugs, with applications to different ROS-related diseases and various subcellular organelle-targetable and disease-targetable features. The ROS-responsive moieties, the self-immolative linkers, and the typical activation mechanism for the ROS-responsive release are also summarized and discussed.

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A comprehensive review on β-lapachone: Mechanisms, structural modifications, and therapeutic potentials

Gong

Wang

et al. 2021

European Journal of Medicinal Chemistry

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A Carbon‐Carbon Bond Cleavage‐Based Prodrug Activation Strategy Applied to β‐Lapachone for Cancer‐Specific Targeting

Gong

et al. 2022

Angew Chem Int Ed

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Prodrugs are one of the most common strategies for the design of targeted anticancer agents. However, their application is often hampered by the modifiable groups available on parent drugs. Herein, a carbon-carbon (CÀ C) bond cleavage-based prodrug activation strategy is reported, which was successfully used to design prodrugs of β-lapachone (β-lap), an ortho-quinone natural product without traditional modifiable groups for the construction of CÀ N/CÀ O bond cleavage-based prodrugs. The designed β-lap prodrug with a reactive oxygen species-specific trigger was quickly activated, releasing β-lap. It exerted anticancer efficacy via NAD(P)H:quinone oxidoreductase 1 (NQO1)-mediated futile redox cycling, resulting in potent cytotoxicity that was highly selective for NQO1rich cancer cells over normal cells both in vitro and in vivo. This significantly amplified the therapeutic window of β-lap. This study provides a practical strategy for the design of prodrugs for parent drugs that do not contain traditional modifiable groups.

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Rational designed highly sensitive NQO1-activated near-infrared fluorescent probe combined with NQO1 substrates in vivo: An innovative strategy for NQO1-overexpressing cancer theranostics

Gong

Yang

et al. 2021

European Journal of Medicinal Chemistry

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A Carbon‐Carbon Bond Cleavage‐Based Prodrug Activation Strategy Applied to β‐Lapachone for Cancer‐Specific Targeting

Gong

et al. 2022

Angewandte Chemie

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Qijie Gong

Reactive Oxygen Species (ROS)-Responsive Prodrugs, Probes, and Theranostic Prodrugs: Applications in the ROS-Related Diseases

A comprehensive review on β-lapachone: Mechanisms, structural modifications, and therapeutic potentials

A Carbon‐Carbon Bond Cleavage‐Based Prodrug Activation Strategy Applied to β‐Lapachone for Cancer‐Specific Targeting

Rational designed highly sensitive NQO1-activated near-infrared fluorescent probe combined with NQO1 substrates in vivo: An innovative strategy for NQO1-overexpressing cancer theranostics

A Carbon‐Carbon Bond Cleavage‐Based Prodrug Activation Strategy Applied to β‐Lapachone for Cancer‐Specific Targeting

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