Discovery Attribute Sciences, Amgen , South San Francisco, California 94080, United States.
Anal Chem. 2017 Jan 3;89(1):720-727. doi: 10.1021/acs.analchem.6b03261. Epub 2016 Dec 20.
Monoclonal antibodies (mAbs) are large heterogeneous molecules that represent a growing class of therapeutics. De novo sequencing of mAbs becomes necessary when the original cell line or the cDNA is unavailable. An important feature in sequencing of mAbs is the discrimination of isobaric residues (Xle): leucine (Leu) and isoleucine (Ile). An incorrect identification of the Xle site, especially in the complementarity determining regions (CDRs), can result in the production of an antibody with severely compromised efficacy. Multistage fragmentation (MS) in the mass spectrometer can provide sufficient evidence for Ile/Leu discrimination. However, most existing methods utilize direct infusion of purified peptides, demanding peptide enrichment which can be labor-intensive and requires large amount of material. Here we introduce an online nano-LCMS method, which depending on the nature of the peptide, exploits either generation of a signature 69 Da ion from Ile or formation of unique w-ions employing MS (ETD-HCD) for rapid Ile/Leu distinction. This reliable and sensitive method utilizes the Orbitrap Fusion tribid mass spectrometer to rapidly assign multiple Xle residues in the CDRs of mAbs.
单克隆抗体 (mAbs) 是一种大型异质分子,代表了一类不断发展的治疗药物。当原始细胞系或 cDNA 不可用时,需要对 mAbs 进行从头测序。mAbs 测序的一个重要特征是区分等电残基 (Xle):亮氨酸 (Leu) 和异亮氨酸 (Ile)。如果 Xle 位点的鉴定不正确,特别是在互补决定区 (CDRs) 中,可能会导致产生功效严重受损的抗体。质谱仪中的多级碎裂 (MS) 可以为 Ile/Leu 区分提供充分的证据。然而,大多数现有方法利用纯化肽的直接进样,需要肽富集,这可能是劳动密集型的,并且需要大量的材料。在这里,我们介绍一种在线纳升 LC-MS 方法,该方法根据肽的性质,利用从 Ile 生成独特的 69 Da 离子或利用 MS(ETD-HCD)形成独特的 w-离子来快速区分 Ile/Leu。这种可靠且灵敏的方法利用 Orbitrap Fusion tribid 质谱仪快速分配 mAbs 的 CDRs 中的多个 Xle 残基。
