School of Pharmaceutical Sciences, Guangzhou University of Chinese Medicine, University town, Waihuan Rd., Panyu, Guangzhou, 510006, China; Shanghai Veterinary Research Institute, Chinese Academy of Agricultural Sciences, 200241, Shanghai, China.
School of Pharmaceutical Sciences, South-Central University for nationalities, Wuhan, 430074, China.
Bioorg Chem. 2021 Nov;116:105295. doi: 10.1016/j.bioorg.2021.105295. Epub 2021 Aug 21.
We previously discovered extrahepatic cytochrome P450 1B1 (CYP1B1) degraders able to overcome drug resistance toward docetaxel using a PROTACs technology, however, the underexplored structure activity relationships and poor water solubility posed a major hurdle in the development of CYP1B1 degraders. Herein, continuous efforts are made to develop more promising α-naphthoflavone (ANF)-derived chimeras for degrading CYP1B1. Guided by the strongest ANF-derived CYP1B1 degrader 3a we ever reported, 17 ANF analogues are designed and synthesized to evaluate the CYP1B1 degradation and resultant resistance reversal. In degrading CYP1B1 and sensitizing drug resistance, 4d with a 1, 5-cis triazole coupling mode at (C3') of B ring of ANF exhibited the similar potency as 3a carrying a 1, 4-trans triazole fragment at (C4') of B ring, but more obvious selectivity of 4d toward CYP1B1 over CYP1A2 is observed. When an oxygen was inserted into the linker of 4d, 4f demonstrated better water solubility, a more potent ability in degrading CYP1B1 and reversing drug resistance, and a promising selectivity. Collectively, a substitution position, an alkyne-azide cyclization and a liker type significantly affect the ability of ANF-thalidomide conjugates in eliminating drug resistance of CYP1B1-expressing DU145 (DU145/CY) cells to docetaxel via targeted CYP1B1 degradation.
我们之前发现了能够使用 PROTACs 技术克服多西紫杉醇耐药性的肝外细胞色素 P450 1B1(CYP1B1)降解剂,然而,未充分探索的结构活性关系和较差的水溶性在 CYP1B1 降解剂的开发中构成了主要障碍。在此,我们不断努力开发更有前途的α-萘黄酮(ANF)衍生的嵌合体来降解 CYP1B1。在我们曾经报道的最强的 ANF 衍生的 CYP1B1 降解剂 3a 的指导下,设计并合成了 17 种 ANF 类似物来评估 CYP1B1 降解和由此产生的耐药性逆转。在降解 CYP1B1 和敏化耐药性方面,具有 1,5-顺式三唑偶联模式的 4d 在 ANF 的 B 环的(C3')处表现出与在 B 环的(C4')处具有 1,4-反式三唑片段的 3a 相似的效力,但观察到 4d 对 CYP1B1 相对于 CYP1A2 的选择性更明显。当在 4d 的连接子中插入一个氧原子时,4f 表现出更好的水溶性、更强的降解 CYP1B1 和逆转耐药性的能力以及有前途的选择性。总之,取代位置、炔烃-叠氮化物环化和连接子类型显著影响 ANF-沙利度胺缀合物通过靶向 CYP1B1 降解消除表达 CYP1B1 的 DU145(DU145/CY)细胞对多西紫杉醇耐药性的能力。
