新型萘啶衍生物作为强效 SOS1 抑制剂的先导鉴定

IF 3.5 3区医学 Q2 CHEMISTRY, MEDICINAL ACS Medicinal Chemistry Letters Pub Date : 2024-06-03 DOI:10.1021/acsmedchemlett.4c00156

Dongsheng Li, Qing Xie, Maozhi Yang, Yalei Cai, Kang Sun, Shujuan Jiang, Songda Yu, Lei Liu, Yixiang Zhang, Bing Yu*, Wangyang Tu* and Leping Li*,

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引用次数: 0

摘要

SOS1 是一种鸟嘌呤核苷酸交换因子 (GEF)，在催化 KRAS 从 GDP 结合型向 GTP 结合型转化的过程中起着至关重要的作用，无论 KRAS 是否发生突变，它都是治疗所有 KRAS 驱动型肿瘤的一个很有前景的新药靶点。在此，我们采用支架跳跃策略设计、合成并优化了一系列新型二元环衍生物作为 SOS1 抑制剂。其中，化合物 10f（HH0043）在生化和细胞实验中都显示出了强效活性，并具有良好的药代动力学特征。在皮下注射 KRASG12C 突变的 NCI-H358（人肺癌细胞系）异种移植小鼠模型中，口服 HH0043 可产生显著的肿瘤抑制效果，其肿瘤抑制效果优于相同剂量的 BI-3406（总生长抑制率 TGI：76% 对 49%）。基于这些结果，HH0043 具有新颖的 1,7-萘啶支架，有别于目前报道的 SOS1 抑制剂，因此被提名为该发现项目的先导化合物。

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Lead Identification of Novel Naphthyridine Derivatives as Potent SOS1 Inhibitors

SOS1, a guanine nucleotide exchange factor (GEF), plays a critical role in catalyzing the conversion of KRAS from its GDP- to GTP-bound form, regardless of KRAS mutation status, and represents a promising new drug target to treat all KRAS-driven tumors. Herein, we employed a scaffold hopping strategy to design, synthesize, and optimize a series of novel binary ring derivatives as SOS1 inhibitors. Among them, compound 10f (HH0043) displayed potent activities in both biochemical and cellular assays and favorable pharmacokinetic profiles. Oral administration of HH0043 resulted in a significant tumor inhibitory effect in a subcutaneous KRAS^G12C-mutated NCI-H358 (human lung cancer cell line) xenograft mouse model, and the tumor inhibitory effect of HH0043 was superior to that of BI-3406 at the same dose (total growth inhibition, TGI: 76% vs 49%). On the basis of these results, HH0043, with a novel 1,7-naphthyridine scaffold that is distinct from currently reported SOS1 inhibitors, is nominated as the lead compound for this discovery project.

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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.