Xiaoke Guo scite author profile

Keap1 is known to mediate the ubiquitination of Nrf2, a master regulator of the antioxidant response. Directly interrupting the Keap1-Nrf2 interaction has been emerged as a promising strategy to develop novel class of antioxidant, antiinflammatory, and anticancer agents. On the basis of the molecular binding determinants analysis of Keap1, we successfully designed and characterized the most potent protein-protein interaction (PPI) inhibitor of Keap1-Nrf2, compound 2, with K(D) value of 3.59 nM binding to Keap1 for the first time to single-digit nanomolar. Compound 2 can effectively disrupt the Nrf2-Keap1 interaction with an EC50 of 28.6 nM in the fluorescence polarization assay. It can also activate the Nrf2 transcription activity in the cell-based ARE-luciferase reporter assay in a dose-dependent manner. The qRT-PCR results of Nrf2 transcription targets gave the consistent results. These results confirm direct and highly efficient interruption of the Keap1-Nrf2 PPI can be fully achieved by small molecules.

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Structure–Activity and Structure–Property Relationship and Exploratory in Vivo Evaluation of the Nanomolar Keap1–Nrf2 Protein–Protein Interaction Inhibitor

Jiang

et al. 2015

J. Med. Chem.

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Directly disrupting the Keap1-Nrf2 protein-protein interaction (PPI) is an effective way to activate Nrf2. Using the potent Keap1-Nrf2 PPI inhibitor that was reported by our group, we conducted a preliminary investigation of the structure-activity and structure-property relationships of the ring systems to improve the drug-like properties. Compound 18e, which bore p-acetamido substituents on the side chain phenyl rings, was the best choice for balancing PPI inhibition activity, physicochemical properties, and cellular Nrf2 activity. Cell-based experiments with 18e showed that the Keap1-Nrf2 PPI inhibitor can activate Nrf2 and induce the expression of Nrf2 downstream proteins in an Nrf2-dependent manner. An exploratory in vivo experiment was carried out to further evaluate the anti-inflammatory effects of 18e in a LPS-challenged mouse model. The primary results indicated that 18e could reduce the level of circulating pro-inflammatory cytokines induced by LPS and relieve the inflammatory response.

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Targeting WD Repeat-Containing Protein 5 (WDR5): A Medicinal Chemistry Perspective

Chen

Wang

et al. 2021

J. Med. Chem.

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WD repeat-containing protein 5 (WDR5) is a member of the WD40 protein family, and it is widely involved in various biological activities and not limited to epigenetic regulation in vivo. WDR5 is also involved in the initiation and development of many diseases and plays a key role in these diseases. Since WDR5 was discovered, it has been suggested as a potential disease treatment target, and a large number of inhibitors targeting WDR5 have been discovered. In this review, we discussed the development of inhibitors targeting WDR5 over the years, and the biological mechanisms of these inhibitors based on previous mechanistic studies were explored. Finally, we describe the development potential of inhibitors targeting WDR5 and prospects for further applications.

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Synthesis and evaluation of N -(benzofuran-5-yl)aromaticsulfonamide derivatives as novel HIF-1 inhibitors that possess anti-angiogenic potential

Wei

Yang

et al. 2017

Bioorganic & Medicinal Chemistry

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Insight into the Intermolecular Recognition Mechanism between Keap1 and IKKβ Combining Homology Modelling, Protein-Protein Docking, Molecular Dynamics Simulations and Virtual Alanine Mutation

Jiang

Chu

et al. 2013

PLoS ONE

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Degradation of certain proteins through the ubiquitin-proteasome pathway is a common strategy taken by the key modulators responsible for stress responses. Kelch-like ECH-associated protein-1(Keap1), a substrate adaptor component of the Cullin3 (Cul3)-based ubiquitin E3 ligase complex, mediates the ubiquitination of two key modulators, NF-E2-related factor 2 (Nrf2) and IκB kinase β (IKKβ), which are involved in the redox control of gene transcription. However, compared to the Keap1-Nrf2 protein-protein interaction (PPI), the intermolecular recognition mechanism of Keap1 and IKKβ has been poorly investigated. In order to explore the binding pattern between Keap1 and IKKβ, the PPI model of Keap1 and IKKβ was investigated. The structure of human IKKβ was constructed by means of the homology modeling method and using reported crystal structure of Xenopus laevis IKKβ as the template. A protein-protein docking method was applied to develop the Keap1-IKKβ complex model. After the refinement and visual analysis of docked proteins, the chosen pose was further optimized through molecular dynamics simulations. The resulting structure was utilized to conduct the virtual alanine mutation for the exploration of hot-spots significant for the intermolecular interaction. Overall, our results provided structural insights into the PPI model of Keap1-IKKβ and suggest that the substrate specificity of Keap1 depend on the interaction with the key tyrosines, namely Tyr525, Tyr574 and Tyr334. The study presented in the current project may be useful to design molecules that selectively modulate Keap1. The selective recognition mechanism of Keap1 with IKKβ or Nrf2 will be helpful to further know the crosstalk between NF-κB and Nrf2 signaling.

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Xiaoke Guo

Discovery of Potent Keap1–Nrf2 Protein–Protein Interaction Inhibitor Based on Molecular Binding Determinants Analysis

Structure–Activity and Structure–Property Relationship and Exploratory in Vivo Evaluation of the Nanomolar Keap1–Nrf2 Protein–Protein Interaction Inhibitor

Targeting WD Repeat-Containing Protein 5 (WDR5): A Medicinal Chemistry Perspective

Synthesis and evaluation of N -(benzofuran-5-yl)aromaticsulfonamide derivatives as novel HIF-1 inhibitors that possess anti-angiogenic potential

Insight into the Intermolecular Recognition Mechanism between Keap1 and IKKβ Combining Homology Modelling, Protein-Protein Docking, Molecular Dynamics Simulations and Virtual Alanine Mutation

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