化学
细胞生物学
胶水
转染
制药技术
输送系统
生物
重组DNA
生物化学
药物输送
计算生物学
细胞培养
分子生物学
嵌合体(遗传学)
细胞毒性
电穿孔
生物物理学
作者
Mainak Banerjee,Alexandre Detappe,Twan Lammers
标识
DOI:10.1016/j.addr.2026.115922
摘要
Targeted protein degraders (TPDs), including proteolysis-targeting chimeras (PROTAC) and molecular glue degraders (MGD), are among the most promising small-molecule-based drug treatments in oncology. The May 2026 U.S. Food and Drug Administration (FDA) approval of vepdegestrant provides a regulatory milestone for heterobifunctional protein degradation and for PROTAC therapeutics. First-generation TPDs were developed for oral delivery; however, the intrinsic physicochemical properties of TPDs impose constraints on their oral bioavailability, systemic exposure, target-site accumulation, and therapeutic efficacy. As the field transitions toward a second wave of TPD development, nanoparticle-based targeted protein degraders (nano-TPD) are gaining momentum for broadening the therapeutic landscape of protein degradation. In this context, drug delivery systems offer opportunities to overcome key translational barriers by improving pharmacokinetics, tissue distribution, target site localization, cellular uptake, and therapeutic index. Here, we provide an overview of TPD discovery, from early laboratory to (pre-) clinical progress, discuss translational challenges, and suggest advanced drug delivery solutions to help realize the full potential of TPD therapies.
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