Anne Olling scite author profile

Anne Olling

4Publications

64Citation Statements Received

24Citation Statements Given

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Sahlgrenska University Hospital

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Electrospray ionization and collision-induced dissociation time-of-flight mass spectrometry of neutral glycosphingolipids

Olling

Breimer

Peltomaa

et al. 1998

Rapid Commun. Mass Spectrom.

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A series of native naturally occurring neutral glycosphingolipids has been analysed by electrospray ionization tandem mass spectrometry using a hybrid magnetic sector-TOF instrument. The collision-induced dissociation products of precursor ions were detected by an orthogonal acceleration time-of-flight mass spectrometer as the second analyser. Glycosphingolipids, with mono- to hexa-saccharide chain lengths with different ceramide constituents, were studied. The result of electrospray ionization in the positive ion mode generally showed singly charged molecular ions with Na+ as adduct, [M + Na]+. The sensitivity of the electrospray ionization was greatly enhanced by addition of NaCl, LiCl (forming [M + Li]+) or KCl (yielding [M + K]+) to the sample. A comparison between the collision-induced dissociation of precursor molecular ions of monoglycosylceramides, using Na+, Li+ and K+ as adducting species, showed that the intensity of the fragment ions and the extent of the daughter ion fragmentation of the molecular ions, are dependent on the type of adduct used. The daughter ion spectra of Li+ adduct ions showed intense sequence fragment ions, both of the saccharide chain and the ceramide moiety, and were superior to those obtained using Na+ or K+. The collision-induced dissociation spectra of the [M + Li]+ ions, of glycosphingolipids containing di- to hexasaccharides, are also presented. Proposed possible fragments, resulting from the CID of the molecular ions [M + Li]+ of monoglycosylceramides, are shown.

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Anti-Carbohydrate Antibodies Associated With Hyperacute Rejection in a Vascularized Mouse Heart-to-Rat Xenotransplantation Model

Ml¹,

Gannedahl

et al. 1996

Transplantation

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Specificity of immune reactions has always been sought, because it facilitates intervention with unwanted mechanisms. Specific carbohydrate antigens have been proposed to be targets of antibodies in early immune responses in pig-to-man xenografts. This work was undertaken to determine carbohydrate structure for antibody response in the experimental xenograft model mouse-to-rat. Glycolipids were prepared from nine different mouse organs and separated for carbohydrate size on thin layer plates. Sera taken from normal untreated rats showed only weak or absent IgM antibody-binding to the separated mouse glycolipids. This is in accordance with the observation that mouse heart grafts are not hyperacutely rejected by the rat. However, sera taken from mouse heart xenografted rats show clear IgG and IgM antibody binding to neutral glycolipids migrating in the five-sugar region of the thin-layer plate. These rats have previously been reported to hyperacutely reject a second xenograft. Glycolipids with this particular mobility and immunostaining properties are the dominant ones in the mouse caval vein preparation, which probably represents a rather pure vascular structure. The target antigen structure was identified, by mass spectrometry and proton nuclear magnetic resonance spectroscopy, to be the Forssman pentaglycosylceramide. A commercial monoclonal antibody directed toward the Forssman antigen bound the same biochemical structure as the antibodies derived from the mouse heart-xenografted rats. Most of the IgM activity, but very little of the IgG activity was adsorbed using the Forssman terminal disaccharide solid phase.

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Untitled

Bäcker¹,

Thorbert²,

Rakotonirainy

et al. 1999

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Glycosphingolipids were prepared from pig lung and pooled into two fractions with (i) < or = 3 sugar residues, and (ii) > or = 3 sugar residues. Oligosaccharides were prepared and used for gas chromatography, gas chromatography/mass spectrometry and matrix-assisted laser desorption/ionization mass spectrometry. The glycolipid fractions i and ii were further characterised and purified using a novel method based on high performance liquid chromatography "on-flow" proton nuclear magnetic resonance. The LC "on-flow" NMR technique showed good chromatographic separation and gave NMR spectral information which could be used as guidance for pooling of the separated mixture glycolipids. Conventional 1H NMR, thin layer immunostaining, gas chromatography, gas chromatography/mass spectrometry and matrix-assisted laser desorption/ionization mass spectrometry were used to characterise the glycolipids and to validate LC-NMR spectral data.

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S12.7 Carbohydrate antigens as targets for xenoreactive antibodies in a mouse to rat transplantation model

Gustavsson¹,

Gannedahl

Bäcker³

et al. 1993

Glycoconjugate J

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Anne Olling

Electrospray ionization and collision-induced dissociation time-of-flight mass spectrometry of neutral glycosphingolipids

Anti-Carbohydrate Antibodies Associated With Hyperacute Rejection in a Vascularized Mouse Heart-to-Rat Xenotransplantation Model

Untitled

S12.7 Carbohydrate antigens as targets for xenoreactive antibodies in a mouse to rat transplantation model

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