A modified peptide mapping strategy for quantifying site-specific deamidation by electrospray time-of-flight mass spectrometry.

A modified peptide mapping strategy using electrospray time-of-flight mass spectrometry with high-performance liquid chromatography (HPLC/MS) provides an improved measure of deamidation by performing proteolytic digestion at low temperature (4 degrees C), low pH (6.0) and in organic solvent (> or =10% acetonitrile). HPLC resolution of the native (N) and deamidated (D) peptides is achieved, and the ratio of ion counts is converted into percent deamidation. The percent deamidation is established for a reference lot using a time course of digestion (24-120 h) and extrapolation to time zero. Test samples are compared against the reference lot to quantitate changes in site-specific deamidation. A recombinant purified protein (antigen A) having a single labile Asn-Gly site is analyzed using this strategy. The N and D peptides from an endoproteinase Lys C (Lys C) digestion (pH 6, 4 degrees C) resolve to near homogeneity on HPLC which results in equivalent percent deamidation when calculated by either UV or ion counts. Deamidation increases with time and pH of proteolysis. Lys C peptide maps of antigen A and bovine serum albumin (BSA) digested at pH 5-8 are comparable. A Lys C digestion time course of a reference lot of antigen A extrapolates to 18% deamidation of the Asn-Gly site at time zero. This strategy may be generally applicable to protease-protein combinations for improved accuracy in measuring site-specific deamidation by peptide mapping LC/MS.