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Bifunctional Linker for ADC Synthesis with β-Glucuronidase-Triggered Drug Release
MAC glucuronide linker-2 is a bifunctional linker designed to enable β-glucuronidase-responsive drug release for the synthesis of antibody–drug conjugates (ADCs). Reports indicate that ADCs incorporating a glucuronide moiety in the linker releases its payload after cellular internalization, through a glycosidic hydrolysis reaction catalyzed by β-glucuronidase present in lysosomes.1) While sharing the same design concept as the widely used enzymatically cleavable valine-citrulline motif, the hydrophilicity derived from glucuronic acid has been suggested to improve physicochemical properties during the design and preparation of ADCs, particularly where hydrophobicity-driven aggregation is a concern.2-5)
Related Products
- M3763
- MAC Glucuronide Linker-2
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References
- 1) Development and Properties of β-Glucuronide Linkers for Monoclonal Antibody−Drug Conjugates
- 2) Design, Synthesis, and Biological Evaluation of Antibody−Drug Conjugates Comprised of Potent Camptothecin Analogues
- 3) Optimization of a PEGylated Glucuronide-Monomethylauristatin E Linker for Antibody–Drug Conjugates
- 4) Anti-HER2, High-DAR Antibody Fragment–Drug Conjugates with a Glucuronide-Based MMAE Linker–Payload Demonstrate Superior Efficacy over IgG-Based ADCs
- 5) Site-Selective Anti-PD-L1 Antibody–MMAE Conjugate for Enhanced NSCLC Therapy
