886501-82-2Relevant academic research and scientific papers
Dearomatization Approach Toward a Superbenzoquinone-Based Diradicaloid, Tetraradicaloid, and Hexaradicaloid
Li, Guangwu,Han, Yi,Zou, Ya,Lee, Johnathan Joo Cheng,Ni, Yong,Wu, Jishan
, p. 14319 - 14326 (2019)
Reported here is the step-by-step dearomatization of a highly aromatic polycyclic aromatic hydrocarbon (PAH), the hexa-peri-hexabenzocoronene (also called as “superbenzene”), to give a series of superbenzoquinones containing two, four, and six ketone grou
Discovery of the First-in-Class Agonist-Based SOS1 PROTACs Effective in Human Cancer Cells Harboring Various KRAS Mutations
Cui, Rongrong,Diao, Xingxing,Fan, Zisheng,Jiang, Hualiang,Li, Yupeng,Liu, Chaoyi,Xu, Tianfeng,Zhang, Sulin,Zheng, Mingyue,Zhou, Chuan,Zhou, Guizhen,Zhou, Zehui
, p. 3923 - 3942 (2022/03/16)
Regulating SOS1 functions may result in targeted pan-KRAS therapies. Small-molecule SOS1 inhibitors showed promising anticancer potential, and the most advanced inhibitor BI 1701963 is currently under phase I clinical studies. SOS1 agonists provide new opportunities to treat cancer; however, the underlying mechanisms still warrant investigation. We here report the discovery of the first SOS1 PROTACs designed uniquely by connecting a VHL ligand to the reported SOS1 agonist, ensuring that the observed inhibitory activity results from degraders. The best compound 9d induced SOS1 degradation in various KRAS-driven cancer cells and displayed superior antiproliferation activity compared to the agonist itself. Tumor xenograft study clearly showed the promising antitumor potency of 9d against human lung cancer. This study provides good evidence of using agonists to design SOS1 PROTACs and demonstrates that targeted SOS1 degradation represents an effective therapeutic strategy for overcoming KRAS-driven cancers.
