Strategic and Chemical Advances in Antibody-Drug Conjugates.

IF 5.5 3区 医学 Q1 PHARMACOLOGY & PHARMACY
Ibrahim A Alradwan, Meshal K Alnefaie, Nojoud Al Fayez, Alhassan H Aodah, Majed A Majrashi, Meshael Alturki, Mohannad M Fallatah, Fahad A Almughem, Essam A Tawfik, Abdullah A Alshehri
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Abstract

Antibody-drug conjugates (ADCs) are a rapidly advancing class of targeted cancer therapeutics that couple the antigen specificity of monoclonal antibodies (mAbs) with the potent cytotoxicity of small-molecule drugs. In their core design, a tumor-targeting antibody is covalently linked to a cytotoxic payload via a chemical linker, enabling the selective delivery of highly potent agents to malignant cells while sparing normal tissues, thereby improving the therapeutic index. Humanized and fully human immunoglobulin G1(IgG1) antibodies are the most common ADC backbones due to their stability in systemic circulation, robust Fcγ receptor engagement for immune effector functions, and reduced immunogenicity. Antibody selection requires balancing tumor specificity, internalization rate, and binding affinity to avoid barriers to tissue penetration, such as the binding-site barrier effect, while emerging designs exploit tumor-specific antigen variants or unique post-translational modifications to further enhance selectivity. Advances in antibody engineering, linker chemistry, and payload innovation have reinforced the clinical success of ADCs, with more than a dozen agents FDA approved for hematologic malignancies and solid tumors and over 200 in active clinical trials. This review critically examines established and emerging conjugation strategies, including lysine- and cysteine-based chemistries, enzymatic tagging, glycan remodeling, non-canonical amino acid incorporation, and affinity peptide-mediated methods, and discusses how conjugation site, drug-to-antibody ratio (DAR) control, and linker stability influence pharmacokinetics, efficacy, and safety. Innovations in site-specific conjugation have improved ADC homogeneity, stability, and clinical predictability, though challenges in large-scale manufacturing and regulatory harmonization remain. Furthermore, novel ADC architectures such as bispecific ADCs, conditionally active (probody) ADCs, immune-stimulating ADCs, protein-degrader ADCs, and dual-payload designs are being developed to address tumor heterogeneity, drug resistance, and off-target toxicity. By integrating mechanistic insights, preclinical and clinical data, and recent technological advances, this work highlights current progress and future directions for next-generation ADCs aimed at achieving superior efficacy, safety, and patient outcomes, especially in treating refractory cancers.

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抗体-药物偶联物的策略和化学进展。
抗体-药物偶联物(adc)是一类快速发展的靶向癌症治疗药物,它将单克隆抗体(mab)的抗原特异性与小分子药物的强细胞毒性结合起来。在他们的核心设计中,肿瘤靶向抗体通过化学连接物与细胞毒性载荷共价连接,使高效药物能够选择性地递送到恶性细胞,同时保留正常组织,从而提高治疗指数。人源化和全人源化免疫球蛋白G1(IgG1)抗体是最常见的ADC骨干,因为它们在体循环中具有稳定性,具有强大的Fcγ受体参与免疫效应功能,并且免疫原性降低。抗体选择需要平衡肿瘤特异性、内化率和结合亲和力,以避免组织渗透障碍,如结合位点屏障效应,而新兴的设计利用肿瘤特异性抗原变异或独特的翻译后修饰来进一步提高选择性。抗体工程、连接物化学和有效载荷创新的进步加强了adc的临床成功,FDA批准了十几种用于血液恶性肿瘤和实体肿瘤的药物,超过200种药物正在进行临床试验。本文综述了现有的和新兴的偶联策略,包括基于赖氨酸和半胱氨酸的化学方法、酶标记、聚糖重塑、非规范氨基酸掺入和亲和肽介导的方法,并讨论了偶联位点、药抗体比(DAR)控制和连接物稳定性如何影响药代动力学、疗效和安全性。位点特异性偶联的创新改善了ADC的同质性、稳定性和临床可预测性,尽管大规模生产和监管协调方面的挑战仍然存在。此外,新的ADC结构,如双特异性ADC、条件活性ADC、免疫刺激ADC、蛋白质降解ADC和双有效载荷设计正在开发中,以解决肿瘤异质性、耐药性和脱靶毒性问题。通过整合机制见解、临床前和临床数据以及最新的技术进步,这项工作突出了下一代adc的当前进展和未来方向,旨在实现卓越的疗效、安全性和患者预后,特别是在治疗难治性癌症方面。
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
Pharmaceutics
Pharmaceutics Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
7.90
自引率
11.10%
发文量
2379
审稿时长
16.41 days
期刊介绍: Pharmaceutics (ISSN 1999-4923) is an open access journal which provides an advanced forum for the science and technology of pharmaceutics and biopharmaceutics. It publishes reviews, regular research papers, communications,  and short notes. Covered topics include pharmacokinetics, toxicokinetics, pharmacodynamics, pharmacogenetics and pharmacogenomics, and pharmaceutical formulation. Our aim is to encourage scientists to publish their experimental and theoretical details in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced.
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