First site-specific conjugation method for native goat IgG antibodies via glycan remodeling at the conserved Fc region.

Q2 Medicine Antibody Therapeutics Pub Date : 2024-07-10 eCollection Date: 2024-07-01 DOI:10.1093/abt/tbae014
Michael E Dolan, Amissi Sadiki, Leo Lei Wang, Yan Wang, Christopher Barton, Sheldon F Oppenheim, Zhaohui Sunny Zhou
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Abstract

Despite their triumph in treating human diseases, antibody therapies for animals have gained momentum more slowly. However, the first approvals of animal antibodies for osteoarthritic pain in cats and dogs may herald the dawn of a new era. For example, goats are vital to economies around the world for their milk, meat, and hide products. It is therefore imperative to develop therapies to safeguard goats-with antibodies at the forefront. Goat antibodies will be crucial in the development of therapeutic antibodies, for example, as tracers to study antibody distribution in vivo, reagents to develop other therapeutic antibodies, and therapeutic agents themselves (e.g., antibody-drug conjugates). Hamstringing this effort is a still-burgeoning understanding of goat antibodies and their derivatization. Historically, goat antibody conjugates were generated through stochastic chemical modifications, producing numerous attachment sites and modification ratios, thereby deleteriously impacting antigen binding. Site-specific methods exist but often require substantial engineering and have not been demonstrated with goat antibodies. Nevertheless, we present herein a novel method to site-specifically conjugate native goat antibodies: chemo-enzymatic remodeling of the native Fc N-glycan introduces a reactive azide handle, after which click chemistry with strained alkyne partners affords homogeneous conjugates labeled only on the Fc domain. This process is robust, and resulting conjugates retain their antigen binding and specificity. To our knowledge, our report is the first for site-specific conjugation of native goat antibodies. Furthermore, our approach should be applicable to other animal antibodies-even with limited structural information-with similar success.

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通过在保守的 Fc 区域进行聚糖重塑,首次实现了原生山羊 IgG 抗体的位点特异性连接方法。
尽管抗体疗法在治疗人类疾病方面取得了巨大成功,但动物抗体疗法的发展却较为缓慢。然而,首批获准用于治疗猫和狗骨关节炎疼痛的动物抗体可能预示着一个新时代的到来。例如,山羊的奶、肉和皮制品对世界各地的经济都至关重要。因此,开发保护山羊的疗法势在必行,而抗体则是其中的佼佼者。山羊抗体对治疗性抗体的开发至关重要,例如,可用作研究体内抗体分布的示踪剂、开发其他治疗性抗体的试剂以及治疗剂本身(如抗体-药物共轭物)。阻碍这一努力的是对山羊抗体及其衍生化的了解仍处于起步阶段。从历史上看,山羊抗体共轭物是通过随机化学修饰产生的,会产生许多附着点和修饰比,从而对抗原结合产生有害影响。特定位点的方法是存在的,但往往需要大量的工程设计,而且尚未在山羊抗体中得到证实。不过,我们在此提出了一种新的方法来对原生山羊抗体进行位点特异性共轭:对原生 Fc N-聚糖进行化学酶重塑,引入反应性叠氮柄,然后与受约束的炔烃伙伴进行点击化学反应,得到仅在 Fc 结构域上标记的同质共轭物。这一过程非常稳健,得到的共轭物能保持其抗原结合力和特异性。据我们所知,我们的报告是第一份对原生山羊抗体进行位点特异性共轭的报告。此外,我们的方法也适用于其他动物抗体,即使结构信息有限,也能取得类似的成功。
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来源期刊
Antibody Therapeutics
Antibody Therapeutics Medicine-Immunology and Allergy
CiteScore
8.70
自引率
0.00%
发文量
30
审稿时长
8 weeks
期刊最新文献
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