Top-down sequencing of O-glycoproteins by in-source decay matrix-assisted laser desorption ionization mass spectrometry for glycosylation site analysis.

The sites of mucin-type O-glycosylation are largely unpredictable, making structural analysis by mass spectrometry (MS) indispensible. On the peptide level, a site localization and characterization of O-linked glycans in situ using tandem MS with electron-transfer dissociation or matrix-assisted laser desorption ionization (MALDI) MS with postsource decay have been reported. The top-down sequencing on the protein level by MALDI-MS is based on the in-source decay (ISD) of intact glycoproteins induced by hydrogen radical transfer from the matrix. It allows a ladder sequencing from both termini with assignment of O-glycosylation sites based on intense c-, y-, and z-type ions. The feasibility of ISD-MALDI-MS in the localization of O-glycosylation sites was demonstrated with synthetic O-glycopeptides, the tandem repeat domain of recombinant MUC1, and the natural bovine glycoproteins asialofetuin and desialylated κ-casein. Ladder sequencing of the 17-18.5 kD MUC1 hexarepeat domains revealed (1) cell-specific glycosylation site patterns on comparison of probes expressed in human HEK-293 or Drosophila S2 cells, and (2) a site-specific microheterogeneity at the Thr/Ser sites with variations of the glycan compositions from zero to four monosaccharides. Novel O-glycosylation sites in the C-terminal domains of fetuin (T334) and κ-caseinoglycopeptide (S154 and T156) were assigned, the former representing a sequence conflict with the published T154.