发现具有针对次级耐药突变强效活性的 ROS1 融合蛋白口服降解剂。

Discovery of Oral Degraders of the ROS1 Fusion Protein with Potent Activity against Secondary Resistance Mutations.

机构信息

Department of Chemistry, Xavier University of Louisiana, New Orleans, Louisiana 70125, United States.

RCMI Cancer Research Center, Xavier University of Louisiana, New Orleans, Louisiana 70125, United States.

出版信息

J Med Chem. 2024 Oct 24;67(20):18098-18123. doi: 10.1021/acs.jmedchem.4c01205. Epub 2024 Oct 3.

DOI:10.1021/acs.jmedchem.4c01205

PMID:39361251

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11513893/

Abstract

The development of therapeutic resistance in the majority of patients limits the long-term benefit of ROS1 inhibitor treatment. On-target mutations of the ROS1 kinase domain confer resistance to crizotinib and lorlatinib in more than one-third of acquired resistance cases with no current effective treatment option. As an alternative to stoichiometric inhibition, proteolytic degradation of ROS1 could provide an effective tool to combat resistance generated by these mutations. Our study has identified a potent, orally active ROS1 degrader with an excellent pharmacokinetics profile. The degrader can effectively inhibit ROS1-dependent cell proliferation and tumor growth by degrading the ROS1 kinase, thereby eliminating the active phospho-ROS1. More importantly, the degradation-based therapeutic modality can overcome on-target mutation resistance to tyrosine kinase inhibitors by efficient degradation of the mutated kinase to achieve greater potency than inhibition.

摘要

在大多数患者中，治疗耐药性的发展限制了 ROS1 抑制剂治疗的长期获益。ROS1 激酶结构域的靶标突变导致超过三分之一的获得性耐药病例对克唑替尼和劳拉替尼耐药，目前尚无有效的治疗选择。与化学计量抑制相反，ROS1 的蛋白水解降解可能为对抗这些突变产生的耐药性提供一种有效工具。我们的研究已经确定了一种有效的、具有良好药代动力学特性的 ROS1 降解剂。该降解剂通过降解 ROS1 激酶，有效抑制 ROS1 依赖性细胞增殖和肿瘤生长，从而消除活性磷酸化 ROS1。更重要的是，基于降解的治疗方式可以通过有效降解突变激酶来克服靶标突变对酪氨酸激酶抑制剂的耐药性，从而实现比抑制更强的效力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0f82/11513893/52267d2c7f9d/jm4c01205_0001.jpg

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发现具有针对次级耐药突变强效活性的 ROS1 融合蛋白口服降解剂。

Discovery of Oral Degraders of the ROS1 Fusion Protein with Potent Activity against Secondary Resistance Mutations.

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