1. Label-free cell phenotypic profiling of histamine H4R receptor and discovery of non-competitive H4R antagonist from natural products.
- Author
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Tang, Hongming, Hou, Tao, Zhou, Han, Liao, Han, Xu, Fangfang, Xie, Xiaomin, Yuan, Wenjie, Guo, Zhixin, Liu, Yanfang, Wang, Jixia, Zhou, Weijia, and Liang, Xinmiao
- Subjects
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HISTAMINE receptors , *NATURAL products , *OPIOID receptors , *INFLAMMATORY bowel diseases , *MOLECULAR dynamics , *HIGH throughput screening (Drug development) , *BINDING sites - Abstract
[Display omitted] • An H4R target pathway model for high-throughput screening tests was developed. • Cryptotanshinone was a new H4R non-competitive antagonist. • Cryptotanshinone interacts with H4R at a novel allosteric binding site. Histamine 4 receptor (H4R), the most recently identified subtype of histamine receptor, primarily induces inflammatory reactions upon activation. Several H4R antagonists have been developed for the treatment of inflammatory bowel disease (IBD) and atopic dermatitis (AD), but their use has been limited by adverse side effects, such as a short half-life and toxicity. Natural products, as an important source of anti-inflammatory agents, offer minimal side effects and reduced toxicity. This work aimed to identify novel H4R antagonists from natural products. An H4R target-pathway model deconvoluted downstream G i and MAPK signaling pathways was established utilizing cellular label-free integrative pharmacology (CLIP), on which 148 natural products were screened. Cryptotanshinone was identified as selective H4R antagonist, with an IC 50 value of 11.68 ± 1.30 μM, which was verified with Fluorescence Imaging Plate Reader (FLIPR) and Cellular Thermal Shift (CTS) assays. The kinetic binding profile revealed the noncompetitive antagonistic property of cryptotanshinone. Two allosteric binding sites of H4R were predicted using SiteMap, Fpocket and CavityPlus. Subsequent molecular docking and dynamics simulation indicated that cryptotanshinone interacts with H4R at a pocket formed by the outward interfaces between TM3/4/5, potentially representing a new allosteric binding site for H4R. Overall, this study introduced cryptotanshinone as a novel H4R antagonist, offering promise as a new hit for drug design of H4R antagonist. Additionally, this study provided a novel screening model for the discovery of H4R antagonists. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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