大环化：增强盘状圆盘蛋白结构域受体激酶抑制剂的药物样特性

IF 3.5 3区医学 Q2 CHEMISTRY, MEDICINAL

ACS Medicinal Chemistry Letters Pub Date : 2025-04-07 DOI:10.1021/acsmedchemlett.4c0061110.1021/acsmedchemlett.4c00611

Laura Carzaniga*, Roberta Mazzucato, Valentina Mileo, Andrea Rizzi, Maura Vallaro, Giuseppe Ermondi, Silvia Cattani, Andrea Secchi and Giulia Caron*,

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引用次数: 0

摘要

大环化是一种成熟的针对挑战性药物靶点开发配体的策略，用于设计线性盘状蛋白结构域受体（DDR）抑制剂的大环替代品(1)，具有治疗纤维化疾病的潜在应用。本研究旨在通过包括分子对接和变色化考虑在内的创新设计策略来增强1的药物样特征。这些努力导致了在灵活性和连接特性上不同的匹配的大环对的合成。化合物5a是一种很有前途的先导物，具有纳米级的活性、显著改善的溶解度和优异的渗透性。综合实验物理化学表征进一步强调了电离的适度影响，亲脂性（而不是极性）在驱动所研究匹配对的渗透率方面发挥的主要作用，以及传统二维计算描述符在预测大环adme相关性质方面的局限性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Macrocyclization: Enhancing Drug-like Properties of Discoidin Domain Receptor Kinase Inhibitors

Macrocyclization, a well-established strategy for developing ligands against challenging drug targets, was employed to design macrocyclic alternatives to a linear discoidin domain receptor (DDR) inhibitor (1) with potential applications in treating fibrotic diseases. This study aimed to enhance the drug-like profile of 1 through innovative design strategies encompassing molecular docking and chameleonicity considerations. These efforts resulted in the synthesis of matched pairs of macrocycles differing in flexibility and linker features. Compound 5a emerged as a promising lead, exhibiting nanomolar-range activity, significantly improved solubility, and excellent permeability. Comprehensive experimental physicochemical characterization further highlighted the modest impact of ionization, the major role played by lipophilicity (but not polarity) in driving permeability of the investigated matched pairs, and the limitations of traditional 2D computational descriptors in predicting macrocycle ADME-related properties.

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来源期刊

ACS Medicinal Chemistry Letters CHEMISTRY, MEDICINAL-

CiteScore

7.30

自引率

2.40%

发文量

328

审稿时长

1 months

期刊介绍： ACS Medicinal Chemistry Letters is interested in receiving manuscripts that discuss various aspects of medicinal chemistry. The journal will publish studies that pertain to a broad range of subject matter, including compound design and optimization, biological evaluation, drug delivery, imaging agents, and pharmacology of both small and large bioactive molecules. Specific areas include but are not limited to: Identification, synthesis, and optimization of lead biologically active molecules and drugs (small molecules and biologics) Biological characterization of new molecular entities in the context of drug discovery Computational, cheminformatics, and structural studies for the identification or SAR analysis of bioactive molecules, ligands and their targets, etc. Novel and improved methodologies, including radiation biochemistry, with broad application to medicinal chemistry Discovery technologies for biologically active molecules from both synthetic and natural (plant and other) sources Pharmacokinetic/pharmacodynamic studies that address mechanisms underlying drug disposition and response Pharmacogenetic and pharmacogenomic studies used to enhance drug design and the translation of medicinal chemistry into the clinic Mechanistic drug metabolism and regulation of metabolic enzyme gene expression Chemistry patents relevant to the medicinal chemistry field.