变构调节
药效团
化学
结合位点
生物化学
计算生物学
体外
小分子
立体化学
核苷酸
突变
血浆蛋白结合
共价键
共价结合
序列(生物学)
突变
结构-活动关系
酶
蛋白质-蛋白质相互作用
生物
酪氨酸激酶
细胞生物学
激酶
抗药性
作者
Kien Tran,Hugo Lavoie,Amal Wahhab,Damien Garrido,Chang Hwa Jo,Marc-André Poupart,T. Arya,Alexandre Beautrait,Ryan C. Killoran,Cédric Dicaire-Leduc,Éric Bonneil,Michael J. Osborne,Doris A. Schuetz,Faraz Shaikh,Pierre Thibault,Matthew J. Smith,Anne Marinier,Marc Therrien
标识
DOI:10.1021/acsmedchemlett.6c00078
摘要
Despite therapeutic advances against RAS mutations in cancer, acquired resistance frequently arises. Several secondary mutations at the binding sites effectively confer resistance to both Switch-II inhibitors and cyclophilin-A molecular glues. This underscores the need for RAS inhibitors that engage alternative binding pockets or operate through novel mechanisms. Here, we report the design of 10-mer macrocyclic peptides that mimic the FG-loop of the NS1 monobody, which targets the allosteric α4-α5-β6 surface of H/KRAS to disrupt RAS clustering and downstream signaling. These noncovalent inhibitors bind to H/KRAS with equivalent potencies, regardless of nucleotide state or the presence of oncogenic mutations (G12D, G12V, G13R, Q61K), and their binding site was confirmed by NMR and X-ray crystallography. Furthermore, covalent analogs targeting Cys118 were shown to label RAS in vitro and in complete cell lysates. Finally, we demonstrated that the key pharmacophores are connectable, providing a foundation for the development of smaller allosteric H/KRAS inhibitors.
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