喜树碱
药效团
连接器
体内
药物输送
化学
组合化学
药品
有效载荷(计算)
结合
细胞内
药理学
靶向给药
前药
吉西他滨
细胞毒性
药代动力学
纳米技术
范围(计算机科学)
生物正交化学
计算生物学
化学空间
纳米医学
药物发现
阿霉素
作者
Philipp Ochtrop,Anil P. Jagtap,Jan G. Felber,Simon Vogt,Sarah Herterich,Isabelle Mai,Philipp Cyprys,Saskia Schmitt,Sarah Payer,Annabel Kitowski,Swetlana Wunder,Paul Machui,Julia Ines Brandmeier,Natascia Leonardi,Elizaveta Poliak,Christian P. R. Hackenberger,Olivier Marcq,Dominik Schumacher,Jonas Helma,Annette M. Vogl
标识
DOI:10.1038/s41467-026-68605-y
摘要
Despite recent advances in targeted drug delivery, approved Antibody-Drug-Conjugates (ADCs) are still limited by the delivery of a restricted set of payloads with limited modes of action (MOA). Versatile linkers, applicable to functional groups prevalent across diverse pharmacophores are needed to expand this space. We present phosphoramidate-based self-immolative linker-units that facilitate stable attachment in serum and traceless drug release in the target cell of aliphatic and aromatic alcohols. Studies with camptothecins show that stability and release are tunable and that various intracellular trigger events can be exploited to ensure traceless drug delivery. Superior stability, in vivo efficacy, and pharmacokinetics (PK) compared to approved camptothecin ADCs are demonstrated. Moreover, we report targeted delivery of 10 different hydroxy-containing cytotoxins with different intracellular MOAs. In vivo studies with gemcitabine show excellent PK and efficacy, unlocking gemcitabine's full potential and illustrating the ability of the phosphoramidate-based linker system to expand the payload space for ADCs.
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