Pfizer Inc., World Wide Medicinal Chemistry, Groton, Connecticut.
Pfizer Inc., Oncology Research & Development, Pearl River, New York.
Mol Cancer Ther. 2020 Oct;19(10):2068-2078. doi: 10.1158/1535-7163.MCT-20-0237. Epub 2020 Aug 3.
The approval of ado-trastuzumab emtansine (T-DM1) in HER2 metastatic breast cancer validated HER2 as a target for HER2-specific antibody-drug conjugates (ADC). Despite its demonstrated clinical efficacy, certain inherent properties within T-DM1 hamper this compound from achieving the full potential of targeting HER2-expressing solid tumors with ADCs. Here, we detail the discovery of PF-06804103, an anti-HER2 ADC designed to have a widened therapeutic window compared with T-DM1. We utilized an empirical conjugation site screening campaign to identify the engineered ĸkK183C and K290C residues as those that maximized ADC stability, efficacy, and safety for a four drug-antibody ratio (DAR) ADC with this linker-payload combination. PF-06804103 incorporates the following novel design elements: (i) a new auristatin payload with optimized pharmacodynamic properties, (ii) a cleavable linker for optimized payload release and enhanced antitumor efficacy, and (iii) an engineered cysteine site-specific conjugation approach that overcomes the traditional safety liabilities of conventional conjugates and generates a homogenous drug product with a DAR of 4. PF-06804103 shows (i) an enhanced efficacy against low HER2-expressing breast, gastric, and lung tumor models, (ii) overcomes - and -acquired T-DM1 resistance, and (iii) an improved safety profile by enhancing ADC stability, pharmacokinetic parameters, and reducing off-target toxicities. Herein, we showcase our platform approach in optimizing ADC design, resulting in the generation of the anti-HER2 ADC, PF-06804103. The design elements of identifying novel sites of conjugation employed in this study serve as a platform for developing optimized ADCs against other tumor-specific targets.
曲妥珠单抗恩美曲妥珠单抗(T-DM1)在 HER2 转移性乳腺癌中的获批验证了 HER2 是 HER2 特异性抗体药物偶联物(ADC)的靶点。尽管 T-DM1 已显示出临床疗效,但该化合物的某些固有特性阻碍了其充分发挥针对 HER2 表达的实体瘤的 ADC 靶向潜力。在这里,我们详细介绍了 PF-06804103 的发现,这是一种抗 HER2 ADC,与 T-DM1 相比,其设计具有更宽的治疗窗口。我们利用经验性的缀合部位筛选实验,确定了经过工程改造的 kkK183C 和 K290C 残基,使其在具有这种连接子-有效载荷组合的四药-抗体比(DAR)ADC 中能够最大限度地提高 ADC 的稳定性、疗效和安全性。PF-06804103 采用了以下新颖的设计元素:(i)具有优化的药效学特性的新型奥瑞他汀类有效载荷,(ii)可裂解的连接子,用于优化有效载荷的释放和增强抗肿瘤疗效,以及(iii)一种工程化的半胱氨酸位点特异性缀合方法,克服了传统缀合物的传统安全性缺陷,并生成具有 4 的 DAR 的均一药物产品。PF-06804103 显示:(i)对低表达 HER2 的乳腺癌、胃癌和肺癌模型的疗效增强,(ii)克服了 T-DM1 获得性耐药性,以及(iii)通过增强 ADC 的稳定性、药代动力学参数和减少脱靶毒性,改善了安全性。在此,我们展示了我们在优化 ADC 设计方面的平台方法,从而产生了抗 HER2 ADC,PF-06804103。本研究中使用的鉴定新缀合部位的设计元素可作为开发针对其他肿瘤特异性靶标的优化 ADC 的平台。
