Evans Nick, Grygorash Ruslan, Williams Paul, Kyle Andrew, Kantner Terrence, Pathak Ravindra, Sheng XiaoBo, Simoes Fabio, Makwana Hiteshri, Resende Ricardo, de Juan Elena, Jenkins Alan, Morris David, Michelet Aurelie, Jewitt Frances, Rudge Felicity, Camper Nicolas, Manin Anaïs, McDowell William, Pabst Martin, Godwin Antony, Frigerio Mark, Bird Matthew
Abzena Ltd., Babraham Research Campus, Babraham, United Kingdom.
Front Pharmacol. 2022 Jun 17;13:764540. doi: 10.3389/fphar.2022.764540. eCollection 2022.
Antibody-drug conjugates (ADCs) have begun to fulfil their promise as targeted cancer therapeutics with ten clinical approvals to date. As the field matures, much attention has focused upon the key factors required to produce safe and efficacious ADCs. Recently the role that linker-payload reagent design has on the properties of ADCs has been highlighted as an important consideration for developers. We have investigated the effect of incorporating hydrophilic macrocycles into reagent structures on the and behavior of ADCs. -sulfone based disulfide rebridging reagents bearing Val-Cit-PABC-MMAE linker-payloads were synthesized with a panel of cyclodextrins and crown ethers integrated into their structures a glutamic acid branching point. Brentuximab was selected as a model antibody and ten ADCs with a drug-to-antibody ratio (DAR) of 4 were prepared for biological evaluation. , the ADCs prepared showed broadly similar potency (range: 16-34 pM) and were comparable to Adcetris (16 pM). , the cyclodextrin containing ADCs showed greater efficacy than Adcetris and the most efficacious variant (incorporating a 3'-amino-α-cyclodextrin component) matched a 24-unit poly(ethylene glycol) (PEG) containing comparator. The ADCs bearing crown ethers also displayed enhanced efficacy compared to Adcetris, the most active variant (containing a 1-aza-42-crown-14 macrocycle) was superior to an analogous ADC with a larger 24-unit PEG chain. In summary, we have demonstrated that hydrophilic macrocycles can be effectively incorporated into ADC reagent design and offer the potential for enhanced alternatives to established drug-linker architectures.
抗体药物偶联物(ADCs)已开始兑现其作为靶向癌症治疗药物的承诺,迄今为止已有十项临床批准。随着该领域的成熟,人们的注意力大多集中在生产安全有效的ADCs所需的关键因素上。最近,连接子-载荷试剂设计对ADCs性质的作用已被强调为开发者的一个重要考虑因素。我们研究了将亲水性大环化合物纳入试剂结构对ADCs的[具体内容缺失]和[具体内容缺失]行为的影响。合成了基于-砜的二硫键重桥试剂,其带有Val-Cit-PABC-MMAE连接子-载荷,并在其结构中整合了一组环糊精和冠醚以及一个谷氨酸分支点。选择brentuximab作为模型抗体,并制备了十种药物与抗体比率(DAR)为4的ADCs用于生物学评估。所制备的ADCs显示出大致相似的效力(范围:16 - 34 pM),并且与Adcetris(16 pM)相当。此外,含环糊精的ADCs显示出比Adcetris更高的疗效,最有效的变体(包含3'-氨基-α-环糊精成分)与含24单元聚乙二醇(PEG)的对照物相当。与Adcetris相比,含冠醚的ADCs也显示出增强的[具体内容缺失]疗效,最活跃的变体(包含1-氮杂-42-冠-14大环)优于具有更大24单元PEG链的类似ADCs。总之,我们已经证明亲水性大环化合物可以有效地纳入ADCs试剂设计中,并为已有的药物-连接子结构提供增强替代方案的潜力。
