Genentech, Inc. , 1 DNA Way , South San Francisco , California 94080 , United States.
Wuxi Biologics , 288 Fute Zhong Road , Waigaoqiao Free Trade Zone, Shanghai 200131 , China.
Bioconjug Chem. 2018 Apr 18;29(4):1155-1167. doi: 10.1021/acs.bioconjchem.7b00785. Epub 2018 Mar 13.
Previous investigations on antibody-drug conjugate (ADC) stability have focused on drug release by linker-deconjugation due to the relatively stable payloads such as maytansines. Recent development of ADCs has been focused on exploring technologies to produce homogeneous ADCs and new classes of payloads to expand the mechanisms of action of the delivered drugs. Certain new ADC payloads could undergo metabolism in circulation while attached to antibodies and thus affect ADC stability, pharmacokinetics, and efficacy and toxicity profiles. Herein, we investigate payload stability specifically and seek general guidelines to address payload metabolism and therefore increase the overall ADC stability. Investigation was performed on various payloads with different functionalities (e.g., PNU-159682 analog, tubulysin, cryptophycin, and taxoid) using different conjugation sites (HC-A118C, LC-K149C, and HC-A140C) on THIOMAB antibodies. We were able to reduce metabolism and inactivation of a broad range of payloads of THIOMAB antibody-drug conjugates by employing optimal conjugation sites (LC-K149C and HC-A140C). Additionally, further payload stability was achieved by optimizing the linkers. Coupling relatively stable sites with optimized linkers provided optimal stability and reduction of payloads metabolism in circulation in vivo.
先前关于抗体药物偶联物 (ADC) 稳定性的研究主要集中在由于连接子断裂而导致的药物释放上,因为连接子断裂而导致的药物释放是由于payload 相对稳定,如美登素。最近 ADC 的发展集中在探索生产均一 ADC 的技术和新的payload 类别,以扩大所递送药物的作用机制。某些新的 ADC payload 在与抗体结合时可能会在循环中发生代谢,从而影响 ADC 的稳定性、药代动力学、疗效和毒性特征。在这里,我们专门研究 payload 的稳定性,并寻求解决 payload 代谢的一般指导方针,从而提高 ADC 的整体稳定性。使用 THIOMAB 抗体上不同的连接点 (HC-A118C、LC-K149C 和 HC-A140C) 对具有不同功能的各种 payload (例如 PNU-159682 类似物、微管蛋白抑制剂、隐色霉素和紫杉烷) 进行了研究。通过使用最佳的连接点 (LC-K149C 和 HC-A140C),我们能够减少 THIOMAB 抗体药物偶联物中广泛的 payload 代谢和失活。此外,通过优化连接子进一步提高了 payload 的稳定性。将相对稳定的连接点与优化的连接子结合使用,可提供最佳的稳定性,并减少体内循环中 payload 的代谢。
