Production, characterization and pharmacokinetic properties of antibodies with N-linked Mannose-5 glycans

抗体依赖性细胞介导的细胞毒性 抗体 聚糖 甘露糖 化学 体内 碎片结晶区 糖蛋白 药代动力学 体外 生物化学 生物 细胞毒性 免疫学 药理学 生物技术
作者
Marcella Yu,Darren L. Brown,Chae Reed,Shan Chung,Jeff Lutman,Eric Stefanich,Anne Wong,Jean-Philippe Stéphan,Robert Bayer
出处
期刊:mAbs [Landes Bioscience]
卷期号:4 (4): 475-487 被引量:196
标识
DOI:10.4161/mabs.20737
摘要

The effector functions of therapeutic antibodies are strongly affected by the specific glycans added to the Fc domain during post-translational processing. Antibodies bearing high levels of N-linked mannose-5 glycan (Man5) have been reported to exhibit enhanced antibody-dependent cell-mediated cytotoxicity (ADCC) compared with antibodies with fucosylated complex or hybrid glycans. To better understand the relationship between antibodies with high levels of Man5 and their biological activity in vivo, we developed an approach to generate substantially homogeneous antibodies bearing the Man5 glycoform. A mannosidase inhibitor, kifunensine, was first incorporated in the cell culture process to generate antibodies with a distribution of high mannose glycoforms. Antibodies were then purified and treated with a mannosidase for trimming to Man5 in vitro. This 2-step approach can consistently generate antibodies with > 99% Man5 glycan. Antibodies bearing varying levels of Man5 were studied to compare ADCC and Fcγ receptor binding, and they showed enhanced ADCC activity and increased binding affinity to the FcγRIIIA. In addition, the clearance rate of antibodies bearing Man8/9 and Man5 glycans was determined in a pharmacokinetics study in mice. When compared with historical data, the antibodies bearing the high mannose glycoform exhibited faster clearance rate compared with antibodies bearing the fucosylated complex glycoform, while the pharmacokinetic properties of antibodies with Man8/9 and Man5 glycoforms appeared similar. In addition, we identified the presence of a mannosidase in mouse serum that converted most Man8/9 to Man6 after 24 h.
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