Summer Y.Y. Ha scite author profile

Valine–citrulline is a protease-cleavable linker commonly used in many drug delivery systems, including antibody–drug conjugates (ADC) for cancer therapy. However, its suboptimal in vivo stability can cause various adverse effects such as neutropenia and hepatotoxicity, leading to dose delays or treatment discontinuation. Here, we report that glutamic acid–glycine–citrulline (EGCit) linkers have the potential to solve this clinical issue without compromising the ability of traceless drug release and ADC therapeutic efficacy. We demonstrate that our EGCit ADC resists neutrophil protease–mediated degradation and spares differentiating human neutrophils. Notably, our anti-HER2 ADC shows almost no sign of blood and liver toxicity in healthy mice at 80 mg kg−1. In contrast, at the same dose level, the FDA-approved anti-HER2 ADCs Kadcyla and Enhertu show increased levels of serum alanine aminotransferase and aspartate aminotransferase and morphologic changes in liver tissues. Our EGCit conjugates also exert greater antitumor efficacy in multiple xenograft tumor models compared with Kadcyla and Enhertu. This linker technology could substantially broaden the therapeutic windows of ADCs and other drug delivery agents, providing clinical options with improved efficacy and safety.

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Multifunctional Molecular Therapeutic Agent for Targeted and Controlled Dual Chemo- and Photodynamic Therapy

Zhou

Fong

et al. 2020

J. Med. Chem.

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A novel molecular therapeutic agent was designed and synthesized, which contains three functional components, namely, a zinc(II) phthalocyanine substituted with a 2,4-dinitrobenzenesulfonate (DNBS) group as a glutathione (GSH)-activated photosensitizer, a chemo-prodrug based on combretastatin A-4 (CA4) with a singlet oxygen-cleavable aminoacrylate linker, and a biotin moiety as a tumor-targeting ligand. The conjugate showed preferential uptake toward the biotin-receptor-positive HepG2 cells compared with the low biotin-receptor-expressed HCT-116 cells used as the negative control, resulting in the restoration of the fluorescence emission and singlet oxygen generation upon removal of the DNBS group by intracellular GSH. The singlet oxygen produced not only induced a significant photodynamic effect against HepG2 cells but also triggered the cascaded release of the chemocytotoxic CA4, leading to synergistic cytotoxicity as shown by the less-than-unity combination index.

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Homogeneity of antibody-drug conjugates critically impacts the therapeutic efficacy in brain tumors

et al. 2022

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Phthalaldehyde-Amine Capture Reactions for Bioconjugation and Immobilization of Phthalocyanines

Wong

Chu

et al. 2020

Org. Lett.

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A phthalaldehyde-substituted phthalocyanine has been synthesized that can conjugate with a range of biomolecules, including peptides, monosaccharides, lipids, and DNAs, and be immobilized on the surface of bovine serum album nanoparticles and glass slides using the versatile and efficient phthalaldehyde-amine capture reactions. The light-induced cytotoxic effects of the latter two materials have also been examined against cancer cells and bacteria, respectively, showing that they are highly efficient photosensitizing systems for photodynamic therapy.

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Summer Y.Y. Ha

An integrin-targeting glutathione-activated zinc(II) phthalocyanine for dual targeted photodynamic therapy

An Enzymatically Cleavable Tripeptide Linker for Maximizing the Therapeutic Index of Antibody–Drug Conjugates

Multifunctional Molecular Therapeutic Agent for Targeted and Controlled Dual Chemo- and Photodynamic Therapy

Homogeneity of antibody-drug conjugates critically impacts the therapeutic efficacy in brain tumors

Phthalaldehyde-Amine Capture Reactions for Bioconjugation and Immobilization of Phthalocyanines

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