Emerging conjugation strategies and protein engineering technologies aim to improve ADCs in the fight against cancer.

IF 1.3 4区医学 Q4 PHARMACOLOGY & PHARMACY Xenobiotica Pub Date : 2024-08-01 Epub Date: 2024-09-27 DOI:10.1080/00498254.2024.2339993

Eric J Moore, Megan Rice, Gourgopal Roy, Wenting Zhang, Marcello Marelli

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Abstract

Antibody drug conjugates are an exciting therapeutic modality that combines the targeting specificity of antibodies with potent cytotoxins to selectively kill cancer cells. The targeting component improves efficacy and protects non-target cells from the harmful effects of the payload. To date 15 ADCs have been approved by regulatory agencies for commercial use and shown to be valuable tools in the treatment of cancer.The assembly of an ADC requires the chemical ligation of a linker-payload to an antibody. Conventional conjugation methods targeting accessible lysines and cysteines have produced all the ADCs currently on the market. While successful, technologies aiming to improve the homogeneity and stability of ADCs are being developed and tested.Here we provide a review of developing methods for ADC construction. These include enzymatic methods, oligosaccharide remodelling, and technologies using genetic code expansion techniques. The virtues and limitations of each technology are discussed.Emerging conjugation technologies are being applied to produce new formats of ADCs with enhanced functionality including bispecific ADCs, dual-payload ADCs, and nanoparticles for targeted drug delivery. The benefits of these novel formats are highlighted.

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新兴的共轭策略和蛋白质工程技术旨在改善 ADC 的抗癌效果。

抗体药物共轭物是一种令人兴奋的治疗方式，它将抗体的靶向特异性与强效细胞毒素相结合，可选择性地杀死癌细胞。靶向成分可提高疗效，保护非靶细胞免受有效载荷的有害影响。迄今为止，已有 15 种 ADC 获监管机构批准用于商业用途，并被证明是治疗癌症的重要工具。传统的连接方法以可触及的赖氨酸和半胱氨酸为目标，生产出了目前市场上所有的 ADC。在取得成功的同时，旨在提高 ADC 均匀性和稳定性的技术也在不断开发和测试中。这些方法包括酶法、寡糖重塑法和使用遗传密码扩增技术的技术。新兴的共轭技术正被应用于生产具有增强功能的新型 ADC，包括双特异性 ADC、双负载 ADC 和用于靶向给药的纳米颗粒。重点介绍了这些新形式的优点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Xenobiotica 医学-毒理学

CiteScore

3.80

自引率

5.60%

发文量

审稿时长

2 months

期刊介绍： Xenobiotica covers seven main areas, including:General Xenobiochemistry, including in vitro studies concerned with the metabolism, disposition and excretion of drugs, and other xenobiotics, as well as the structure, function and regulation of associated enzymesClinical Pharmacokinetics and Metabolism, covering the pharmacokinetics and absorption, distribution, metabolism and excretion of drugs and other xenobiotics in manAnimal Pharmacokinetics and Metabolism, covering the pharmacokinetics, and absorption, distribution, metabolism and excretion of drugs and other xenobiotics in animalsPharmacogenetics, defined as the identification and functional characterisation of polymorphic genes that encode xenobiotic metabolising enzymes and transporters that may result in altered enzymatic, cellular and clinical responses to xenobioticsMolecular Toxicology, concerning the mechanisms of toxicity and the study of toxicology of xenobiotics at the molecular levelXenobiotic Transporters, concerned with all aspects of the carrier proteins involved in the movement of xenobiotics into and out of cells, and their impact on pharmacokinetic behaviour in animals and manTopics in Xenobiochemistry, in the form of reviews and commentaries are primarily intended to be a critical analysis of the issue, wherein the author offers opinions on the relevance of data or of a particular experimental approach or methodology