Mass Spectrometric Determination of Disulfide Linkages in Recombinant Therapeutic Proteins Using Online LC−MS with Electron-Transfer Dissociation

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• 作者：Shiaw-Lin Wu ; Haitao Jiang ; Qiaozhen Lu ; Shujia Dai ; William S. Hancock ; Barry L. Karger
• 刊名：Analytical Chemistry
• 出版年：2009
• 出版时间：January 1, 2009
• 年：2009
• 卷：81
• 期：1
• 页码：112-122
• 全文大小：759K
• 年卷期：v.81,no.1(January 1, 2009)
• ISSN：1520-6882

文摘

In the biotechnology industry, the generation of incorrectly folded recombinant proteins, either from an E.coli expression system or from an overexpressed CHO cell line (disulfide scrambling), is often a great concern as such incorrectly folded forms may not be completely removed in the final product. Thus, significant efforts have been devoted to map disulfide bonds to ensure drug quality. Similar to ECD, disulfide bond cleavages are preferred over peptide backbone fragmentation in ETD. Thus, an online LC−MS strategy combining collision-induced dissociation (CID-MS²), electron-transfer dissociation (ETD-MS²), and CID of an isolated product ion derived from ETD (MS³) has been used to characterize disulfide-linked peptides. Disulfide-linked peptide ions were identified by CID and ETD fragmentation, and the disulfide-dissociated (or partially dissociated) peptide ions were characterized in the subsequent MS³ step. The online LC−MS approach is successfully demonstrated in the characterization of disulfide linkages of recombinant human growth hormone (Nutropin), a therapeutic monoclonal antibody, and tissue plasminogen activator (Activase). The characterization of disulfide-dissociated or partially dissociated peptide ions in the MS³ step is important to assign the disulfide linkages, particularly, for intertwined disulfide bridges and the unexpected disulfide scrambling of tissue plasminogen activator. The disulfide-dissociated peptide ions are shown to be obtained either directly from the ETD fragmentation of the precursors (disulfide-linked peptide ions) or indirectly from the charge-reduced species in the ETD fragmentation of the precursors. The simultaneous observation of disulfide-linked and disulfide-dissociated peptide ions with high abundance not only provided facile interpretation with high confidence but also simplified the conventional approach for determination of disulfide linkages, which often requires two separate experiments (with and without chemical reduction). The online LC−MS with ETD methodology represents a powerful approach to aid in the characterization of the correct folding of therapeutic proteins.