Dr. Mohamed Abd El-Rahman Mousa Abo-Riya :: Publications:

An early pathological hallmark of Alzheimer’s disease (AD) is amyloid-β (Aβ) deposits in the brain, which largely consist of up to 43 amino acids long Aβ peptides derived from the amyloid precursor protein (APP). We previously identifed a series of sialylated Tyr-10 O-glycosylated Aβ peptides, 15–20 residues long, from human cerebrospinal fuid (CSF) and observed a relative increase of those in AD vs non-AD patients. We report here on the synthesis and use of an isotopically double-labeled Aβ1-15 glycopeptide, carrying the core 1Galβ3GalNAcα1-O-Tyr-10 structure, to (1) identify by HCD LC-MS/MS the defnite glycan core 1 structure of immunopurifed and desialylated Aβ glycopeptides in human CSF and to (2) establish a LC-MS/MS quantifcation method for desialylated Aβ1-15 (and Aβ1-17) glycopeptides and to (3) compare the concentrations of these Aβ glycopeptides in CSF from 20 AD patients and 20 healthy controls. Although we unambiguously identifed the core 1 structures and Tyr10 attachment sites of the glycopeptides, we did not observe any quantitative diferences, determined through both peptide and oxonium ion fragments, of the desialylated Aβ1-15 or Aβ1-17 glycopeptides between the AD and non-AD group. The new quantitative glycoproteomic approach described, using double-labeled glycopeptide standards, will undoubtedly facilitate future studies of glycopeptides as clinical biomarkers but should also embrace sialylated Aβ standards to reveal specifc sialylation patterns of individual Aβ glycopeptides in AD patients and controls