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更新于：2026-01-10

E-377

更新于：2026-01-10

概要

概要

基本信息

药物类型

小分子化药

别名

E 377

靶点

H3 receptor

作用方式

调节剂

作用机制

H3 receptor调节剂(组胺H3受体调节剂)

治疗领域-

在研适应症-

非在研适应症-

原研机构

Uniwersytet Jagiellonski Collegium Medicum

在研机构

Uniwersytet Jagiellonski Collegium Medicum

非在研机构-

权益机构-

最高研发阶段临床前

首次获批日期-

最高研发阶段(中国)-

特殊审评-

结构/序列

分子式C20H25NO

InChIKeyYVKKYCJACTULJR-UHFFFAOYSA-N

CAS号1415332-35-2

关联

100 项与 E-377 相关的临床结果

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100 项与 E-377 相关的转化医学

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100 项与 E-377 相关的专利（医药）

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项与 E-377 相关的文献（医药）

2023-07-27·Journal of medicinal chemistry1区 · 医学

Dual Piperidine-Based Histamine H₃ and Sigma-1 Receptor Ligands in the Treatment of Nociceptive and Neuropathic Pain

1区 · 医学

Article

作者: Ruiz-Cantero, M. Carmen ; Stark, Holger ; Amata, Emanuele ; Marrazzo, Agostino ; Zmysłowski, Adam ; Pockes, Steffen ; Szczepańska, Katarzyna ; Humphrys, Laura J. ; Calmels, Thierry ; Bojarski, Andrzej J. ; Kalinowska-Tłuścik, Justyna ; Podlewska, Sabina ; Karcz, Tadeusz ; Pilarski, Bogusław ; Łażewska, Dorota ; Reiner-Link, David ; Leitzbach, Luisa ; Popiołek-Barczyk, Katarzyna ; Górka, Michał ; Pietruś, Wojciech ; Leniak, Arkadiusz ; Dichiara, Maria ; Mogilski, Szczepan ; Cobos, Enrique J. ; Kieć-Kononowicz, Katarzyna

In search of new dual-acting histamine H₃/sigma-1 receptor ligands, we designed a series of compounds structurally based on highly active in vivo ligands previously studied and described by our team. However, we kept in mind that within the previous series, a pair of closely related compounds, KSK67 and KSK68, differing only in the piperazine/piperidine moiety in the structural core showed a significantly different affinity at sigma-1 receptors (σ₁Rs). Therefore, we first focused on an in-depth analysis of the protonation states of piperazine and piperidine derivatives in the studied compounds. In a series of 16 new ligands, mainly based on the piperidine core, we selected three lead structures (3, 7, and 12) for further biological evaluation. Compound 12 showed a broad spectrum of analgesic activity in both nociceptive and neuropathic pain models based on the novel molecular mechanism.

2012-12-21·Journal of chemical information and modeling2区 · 化学

Virtual Fragment Screening: Discovery of Histamine H₃ Receptor Ligands Using Ligand-Based and Protein-Based Molecular Fingerprints

2区 · 化学

Article

作者: Leurs, Rob ; de Graaf, Chris ; Sirci, Francesco ; de Esch, Iwan J. P. ; Mannhold, Raimund ; Nijmeijer, Saskia ; Vischer, Henry F. ; Kooistra, Albert J. ; Istyastono, Enade P. ; Kuijer, Martien ; Wijtmans, Maikel

Virtual fragment screening (VFS) is a promising new method that uses computer models to identify small, fragment-like biologically active molecules as useful starting points for fragment-based drug discovery (FBDD). Training sets of true active and inactive fragment-like molecules to construct and validate target customized VFS methods are however lacking. We have for the first time explored the possibilities and challenges of VFS using molecular fingerprints derived from a unique set of fragment affinity data for the histamine H(3) receptor (H(3)R), a pharmaceutically relevant G protein-coupled receptor (GPCR). Optimized FLAP (Fingerprints of Ligands and Proteins) models containing essential molecular interaction fields that discriminate known H(3)R binders from inactive molecules were successfully used for the identification of new H(3)R ligands. Prospective virtual screening of 156,090 molecules yielded a high hit rate of 62% (18 of the 29 tested) experimentally confirmed novel fragment-like H(3)R ligands that offer new potential starting points for the design of H(3)R targeting drugs. The first construction and application of customized FLAP models for the discovery of fragment-like biologically active molecules demonstrates that VFS is an efficient way to explore protein-fragment interaction space in silico.

100 项与 E-377 相关的药物交易

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