Andrew T. Bockus, Siegfried S. F. Leung, Breena Fraga-Walton, Miguel P. Baldomero, Luis Hernandez, Nathan J. Dupper, Justin A. Shapiro, Bryan M. Lent, David C. Spellmeyer, Megan K. DeMart, Joshua Luna, Dalena Hoang, Manesh Chand, Yuliana Gritsenko, Cayla McEwen, Mahesh Ramaseshan, Catherine E. Gleason, Frances Hamkins-Indik, Miles W. Membreno, Jie Zheng, Ranya Odeh, Meisam Nosrati, Daphne He, Ramesh Bambal, Peadar Cremin, Jinshu Fang, Bernard Levin, Evelyn W. Wang, Marie Evangelista, David Earp, Constantine Kreatsoulas, Rajinder Singh, Pablo D. Garcia and James B. Aggen*,
{"title":"细胞渗透性大环细胞周期蛋白A/B RxL抑制剂在e2f驱动的癌症中显示抗肿瘤活性的发现。","authors":"Andrew T. Bockus, Siegfried S. F. Leung, Breena Fraga-Walton, Miguel P. Baldomero, Luis Hernandez, Nathan J. Dupper, Justin A. Shapiro, Bryan M. Lent, David C. Spellmeyer, Megan K. DeMart, Joshua Luna, Dalena Hoang, Manesh Chand, Yuliana Gritsenko, Cayla McEwen, Mahesh Ramaseshan, Catherine E. Gleason, Frances Hamkins-Indik, Miles W. Membreno, Jie Zheng, Ranya Odeh, Meisam Nosrati, Daphne He, Ramesh Bambal, Peadar Cremin, Jinshu Fang, Bernard Levin, Evelyn W. Wang, Marie Evangelista, David Earp, Constantine Kreatsoulas, Rajinder Singh, Pablo D. Garcia and James B. Aggen*, ","doi":"10.1021/acs.jmedchem.5c00253","DOIUrl":null,"url":null,"abstract":"<p >The cyclin-dependent kinase (CDK)/retinoblastoma protein (RB)/early region 2 binding factor (E2F) axis forms the core transcriptional machinery driving cell cycle progression. 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引用次数: 0
摘要
细胞周期蛋白依赖性激酶(CDK)/视网膜母细胞瘤蛋白(RB)/早期区域2结合因子(E2F)轴形成驱动细胞周期进程的核心转录机制。RB1或其他通路成员的改变发生在许多癌症中,导致致癌E2F活性升高。E2F的活性受rxl介导的与细胞周期蛋白A疏水性贴片(HP)结合的调控;阻断这种相互作用会导致E2F的过度激活和E2F驱动肿瘤的合成致死性。尽管与阻断CDK活性(如CDK2或CDK4抑制剂)相比,Cyclin A/E2F RxL具有机械分化和潜在的选择性,但其相互作用被认为是不可药物的。利用基于结构的设计,我们发现了一个家族的细胞渗透性大环Cyclin a /B RxL抑制剂,对RB1/ e2f失调的癌细胞系显示出有效的选择性活性。先导化合物34通过肠内(IP)给药在小鼠细胞系来源的异种移植(CDX)肿瘤模型中证明了概念有效性。
Discovery of Cell-Permeable Macrocyclic Cyclin A/B RxL Inhibitors that Demonstrate Antitumor Activity
The cyclin-dependent kinase (CDK)/retinoblastoma protein (RB)/early region 2 binding factor (E2F) axis forms the core transcriptional machinery driving cell cycle progression. Alterations in RB1 or other pathway members occur in many cancers, resulting in heightened oncogenic E2F activity. The activity of E2F is regulated by RxL-mediated binding to the hydrophobic patch (HP) of Cyclin A; blocking this interaction results in the hyperactivation of E2F and synthetic lethality in E2F-driven tumors. While mechanistically differentiated and potentially more selective than blocking CDK activity (e.g., CDK2 or CDK4 inhibitors), the Cyclin A/E2F RxL interaction was deemed undruggable. Utilizing structure-based design, we have discovered a family of cell-permeable macrocyclic Cyclin A/B RxL inhibitors that show potent and selective activity against RB1/E2F-dysregulated cancer cell lines. Lead compound 34 demonstrated proof-of-concept efficacy via intraperiotoneal (IP) administration in mouse cell line-derived xenograft (CDX) tumor models.
期刊介绍:
The Journal of Medicinal Chemistry is a prestigious biweekly peer-reviewed publication that focuses on the multifaceted field of medicinal chemistry. Since its inception in 1959 as the Journal of Medicinal and Pharmaceutical Chemistry, it has evolved to become a cornerstone in the dissemination of research findings related to the design, synthesis, and development of therapeutic agents.
The Journal of Medicinal Chemistry is recognized for its significant impact in the scientific community, as evidenced by its 2022 impact factor of 7.3. This metric reflects the journal's influence and the importance of its content in shaping the future of drug discovery and development. The journal serves as a vital resource for chemists, pharmacologists, and other researchers interested in the molecular mechanisms of drug action and the optimization of therapeutic compounds.
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