Hongxuan Cao, Zeyue Huang, Zheng Liu, Xiao Zhang, Yanliang Ren, Muhammad Salman Hameed, Li Rao, Nokwanda P. Makunga, Georgi M. Dobrikov, Jian Wan
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引用次数: 0
Abstract
Fructose-1,6-bisphosphatase (FBPase) has attracted substantial interest as a target associated with cancer and type II diabetes. FBPase inhibitors targeting the AMP allosteric site have been documented, but their limited selectivity has raised concerns about adverse effects. To address this issue, we designed the affinity/covalent-bond dual-driven inhibitors based on the pharmacophore knowledge of the AMP pocket and neighboring cysteine residue (C179) of FBPase using the cysteine-targeting reactivity warhead screen followed by a structural optimization strategy. Pull-down and Western Blotting assays confirmed FBPase as a direct target in hepatic cells. X-ray cocrystallographic structure of FBPase-11 and Cov_DOX calculation demonstrated that hydrogen bonding and π–π stacking were the predominant driving force for the inhibition of sulfonylurea-based FBPase covalent inhibitors, while covalent binding with C179 enhances the inhibitors’ long-lasting hypoglycemic effects. Together, this work highlights the potential of affinity/covalent-bond dual-driven inhibitors in drug development and provides a promising approach for developing potent drugs targeting AMP-associated proteins.
期刊介绍:
The Journal of Medicinal Chemistry is a prestigious biweekly peer-reviewed publication that focuses on the multifaceted field of medicinal chemistry. Since its inception in 1959 as the Journal of Medicinal and Pharmaceutical Chemistry, it has evolved to become a cornerstone in the dissemination of research findings related to the design, synthesis, and development of therapeutic agents.
The Journal of Medicinal Chemistry is recognized for its significant impact in the scientific community, as evidenced by its 2022 impact factor of 7.3. This metric reflects the journal's influence and the importance of its content in shaping the future of drug discovery and development. The journal serves as a vital resource for chemists, pharmacologists, and other researchers interested in the molecular mechanisms of drug action and the optimization of therapeutic compounds.