ThermoFisher Scientific , 1228 Titan Way , Sunnyvale , California 94088 , United States.
Roche Diagnostics GmbH , 2 Nonnenwald , Penzberg 82377 , Germany.
J Proteome Res. 2018 Apr 6;17(4):1559-1574. doi: 10.1021/acs.jproteome.7b00862. Epub 2018 Feb 23.
Comprehensive characterization of the N-glycome of a therapeutic is challenging because glycans may harbor numerous modifications (e.g., phosphorylation, sulfation, sialic acids with possible O-acetylation). The current report presents a comparison of two chromatographic platforms for the comprehensive characterization of a recombinant human erythropoietin (rhEPO) N-glycome. The two platforms include a common workflow based on 2-AB-derivatization and hydrophilic interaction chromatography (HILIC) and a native N-linked glycan workflow employing high performance anion exchange (HPAE) chromatography. Both platforms were coupled to an Orbitrap mass spectrometer, and data dependent HCD fragmentation allowed confident structural elucidation of the glycans. Each platform identified glycans not revealed by the other, and both exhibited strengths and weaknesses. The reductive amination based HILIC workflow provided better throughput and sensitivity, had good isomer resolution, and revealed the presence of O-acetylated sialic acids. However, it exhibited poor performance toward phosphorylated glycans and did not reveal the presence of sulfated glycans. Furthermore, reductive amination introduced dehydration artifacts and modified the glycosylation profile in the rhEPO glycome. Conversely, HPAE provided unbiased charge classification (sialylation levels), improved isomer resolution, and revealed multiple phosphorylated and sulfated structures, but delivered lower throughput, had artifact peaks due to epimer formation, and loss of sialic acid O-acetylation. The MS based identification of phosphorylated and sulfated glycans was not possible in HILIC mode due to their poor solubility caused by the high acetonitrile concentrations employed at the beginning of the gradient. After analyzing the glycome by both approaches and determining the glycans present, a glycan library was created for site specific glycopeptide analyses. Glycopeptide analyses confirmed all the compositions annotated by the combined use of 2-AB- and native glycan workflows and provided site specific location of the glycans. These two platforms were complementary and in combination delivered a more thorough and comprehensive characterization of the rhEPO N-glycome, supporting regulatory conformance for the pharmaceutical industry.
全面表征治疗性蛋白的 N-糖链具有挑战性,因为聚糖可能存在许多修饰(例如磷酸化、硫酸化、可能带有 O-乙酰化的唾液酸)。本报告比较了两种色谱平台,用于全面表征重组人促红细胞生成素(rhEPO)的 N-糖组。这两种平台均基于 2-AB 衍生化和亲水作用色谱(HILIC)建立了一个共同的工作流程,同时还采用了高性能阴离子交换(HPAE)色谱的天然 N-连接糖组工作流程。这两种平台均与 Orbitrap 质谱仪联用,数据依赖型 HCD 碎裂可确保对聚糖结构进行可靠解析。每个平台都鉴定出了其他平台未揭示的聚糖,且两种平台都有各自的优缺点。基于还原胺化的 HILIC 工作流程提供了更高的通量和灵敏度,具有良好的异构体分辨率,并且揭示了 O-乙酰化唾液酸的存在。然而,它对磷酸化聚糖的性能不佳,并且未揭示硫酸化聚糖的存在。此外,还原胺化引入了脱水假象,改变了 rhEPO 糖组中的糖基化谱。相反,HPAE 提供了无偏的电荷分类(唾液酸化水平),改善了异构体分辨率,并揭示了多种磷酸化和硫酸化结构,但通量较低,由于差向异构化形成的假峰和唾液酸 O-乙酰化的丢失而导致峰损失。由于在梯度开始时使用的高乙腈浓度导致其溶解性较差,HILIC 模式下无法对磷酸化和硫酸化聚糖进行基于 MS 的鉴定。在通过这两种方法分析糖组并确定存在的聚糖后,创建了一个聚糖文库,用于特定位置的糖肽分析。糖肽分析证实了 2-AB 和天然糖组工作流程联合使用注释的所有组成,并提供了聚糖的特定位置。这两种平台具有互补性,联合使用可更全面、更深入地分析 rhEPO 的 N-糖组,为制药行业提供监管合规性支持。
