Hemoglobin-based oxygen therapeutics are prepared by reaction of hemoglobin with cross-linking molecules and are utilized as blood substitutes. They can be used as doping agents to increase the oxygen-carrying capacity of hemoglobin. We have compared a glutaraldehyde-polymerized bovine hemoglobin (Oxyglobin, Biopure Corp.) with natural bovine hemoglobin by mass spectrometry in order to detect specific fragment ions of the cross-linked protein for further potential applications in doping control of human blood samples. HCl acid (6 N) hydrolysis was performed in parallel on both proteins. Hydrolysates were then analyzed by direct infusion electrospray mass spectrometry (ESIMS) using a triple quadrupole mass spectrometer. Confirmation and precision were obtained by LC-ESIMS(n) experiments performed on an ion trap mass spectrometer. Chromatographic and mass spectrometry data allowed detection of two potential Oxyglobin-specific ions--m/z 299 and 399--that were shown to lose a 159 u neutral fragment under collision-induced dissociation conditions. Thus, monitoring of constant neutral loss of 159 u on acid hydrolysates of human serum samples spiked with different amounts of Oxyglobin has proved to be an efficient screening method to specifically detect and identify Oxyglobin. LC-MS of the spiked serum sample hydrolysates enabled detection of Oxyglobin at a detection limit of 4 g x L(-1).
Hemoglobin-based oxygen carriers (HBOCs) are being developed for the medical field, but because they could increase an athlete's performance, they are misapplied for doping purposes. We previously presented a screening method to detect Oxyglobin (Biopure Corp.) and PolyHeme (Northfield Laboratories Inc.) in serum samples using total acid hydrolysis followed by electrospray mass spectrometry analyses. An alternative mass spectrometric method involving enzymatic hydrolysis is here presented. Digestion of Oxyglobin by endoproteinase Glu-C and LC/MS analyses of the mixture allowed the detection of unique peptidic fragments in comparison with a bovine hemoglobin digest. Tandem mass spectrometry experiments of these peptide ions were performed, and two specific species were actually identified as the N-terminal enzymatic fragment of the beta chain carrying two different modifications. Sequential MS3 experiments using an ion trap mass spectrometer permitted us to locate the chemical modification by the glutaraldehyde on the NH2-terminal group and to propose a structure for the modified peptides. In another set of experiments, screening of these two diagnostic ions into Oxyglobin-spiked serums using precursor ion scan mode in a triple quadrupole instrument allowed the detection of this HBOC with a detection limit of 2 g L(-1).
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