Protein therapeutics have emerged as a major new class of pharmaceuticals. One important shelf-life-limiting factor of biopharmaceuticals is methionine oxidation, and therefore, it is important that analytical methods are able to thoroughly characterize all possible oxidized variants. Here, we present a fast and sensitive method to perform online methionine oxidation site assignment using granulocyte colony-stimulating factor (filgrastim) as a model. The method is based on top-down MS using the all-ion fragmentation mode of the Exactive benchtop mass spectrometer. Conditions that provide information on the intact mass of the protein as well as on fragment ions that allow unambiguous site assignment of methionine oxidation in filgrastim variants as low as 0.12 % of total peak area in a chromatographic time scale were identified. Using this method, we performed methionine oxidation site assignment in H2O2-stressed filgrastim and in filgrastim which was stored at intended conditions, respectively. We show that the relative abundance of oxidation species observed in filgrastim stored under intended conditions differs strikingly from the oxidized species observed after H2O2 stress. Additionally, we report an oxidized filgrastim variant that has not been previously described in the literature. FigureA top-down approach on an Exactive benchtop mass spectrometer in all-ion fragmentation mode is a highly attractive alternative to the traditional approach of isolation/bottom-up analysis for methionine oxidation site assignement in biopharmaceuticals. With a sensitivity as low as 0.12 % of total peak area and a throughput of about one sample per hour, the method is highly suitable for a thorough characterization of oxidized methionine residues
Read full abstract