Department of Medicinal Chemistry, Uppsala University, Box 574, 75123, Uppsala, Sweden.
Synthesis Division, Recipharm OT Chemistry, Virdings allé 32b, 75450, Uppsala, Sweden.
ChemMedChem. 2020 Dec 15;15(24):2500-2512. doi: 10.1002/cmdc.202000497. Epub 2020 Oct 16.
Auristatins are a class of ultrapotent microtubule inhibitors, whose growing clinical popularity in oncology is based upon their use as payloads in antibody-drug conjugates (ADCs). The most widely utilized auristatin, MMAE, has however been shown to cause apoptosis in non-pathological cells proximal to the tumour ("bystander killing"). Herein, we introduce azastatins, a new class of auristatin derivatives encompassing a side chain amine for antibody conjugation. The synthesis of Cbz-azastatin methyl ester, which included the C2-elongation and diastereoselective reduction of two proteinogenic amino acids as key transformations, was accomplished in 22 steps and 0.76 % overall yield. While Cbz-protected azastatin methyl ester (0.13-3.0 nM) inhibited proliferation more potently than MMAE (0.47-6.5 nM), removal of the Cbz-group yielded dramatically increased IC -values (9.8-170 nM). We attribute the reduced apparent cytotoxicity of the deprotected azastatin methyl esters to a lack of membrane permeability. These results clearly establish the azastatins as a novel class of cytotoxic payloads ideally suited for use in next-generation ADC development.
奥瑞他汀类是一类超强微管抑制剂,由于其作为抗体药物偶联物(ADC)的有效载荷在肿瘤学中的应用越来越广泛,因此在临床上越来越受欢迎。然而,最广泛使用的奥瑞他汀 MMAE 已被证明会导致肿瘤附近的非病变细胞凋亡(“旁观者杀伤”)。在此,我们引入了氮杂奥瑞他汀类,这是一类新型的奥瑞他汀衍生物,包含用于抗体结合的侧链伯胺。Cbz-氮杂奥瑞他汀甲酯的合成包括两个蛋白源氨基酸的 C2 延长和非对映选择性还原作为关键转化,共 22 步,总收率为 0.76%。Cbz 保护的氮杂奥瑞他汀甲酯(0.13-3.0 nM)比 MMAE(0.47-6.5 nM)更能强烈抑制增殖,而去除 Cbz 基团则导致 IC 值显著增加(9.8-170 nM)。我们将未保护的氮杂奥瑞他汀甲酯的表观细胞毒性降低归因于缺乏膜通透性。这些结果清楚地表明氮杂奥瑞他汀类是一类新型的细胞毒性有效载荷,非常适合用于下一代 ADC 的开发。
