Walther Schmid scite author profile

SummaryA novel reporter system, which is applicable to the 19F NMR investigation of protein interactions, is presented. This approach uses 2-F-labeled maltose as a spy ligand to indirectly probe protein–ligand or protein–protein interactions of proteins fused or tagged to the maltose-binding protein (MBP). The key feature is the simultaneous NMR observation of both 19F NMR signals of gluco/manno-type-2-F-maltose-isomers; one isomer (α-gluco-type) binds to MBP and senses the protein interaction, and the nonbinding isomers (β-gluco- and/or α/β-manno-type) are utilized as internal references. Moreover, this reporter system was used for relative affinity studies of fluorinated and nonfluorinated carbohydrates to the maltose-binding protein, which were found to be in perfect agreement with published X-ray data. The results of the NMR competition experiments together with the established correlation between 19F chemical shift data and molecular interaction patterns, suggest valuable applications for studies of protein–ligand interaction interfaces.

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Diclofenac Hypersensitivity: Antibody Responses to the Parent Drug and Relevant Metabolites

Harrer

Lang

Grims

et al. 2010

PLoS ONE

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BackgroundHypersensitivity reactions against nonsteroidal antiinflammatory drugs (NSAIDs) like diclofenac (DF) can manifest as Type I-like allergic reactions including systemic anaphylaxis. However, except for isolated case studies experimental evidence for an IgE-mediated pathomechanism of DF hypersensitivity is lacking. In this study we aimed to investigate the possible involvement of drug- and/or metabolite-specific antibodies in selective DF hypersensitivity.Methodology/Principal FindingsDF, an organochemically synthesized linkage variant, and five major Phase I metabolites were covalently coupled to carrier proteins. Drug conjugates were analyzed for coupling degree and capacity to crosslink receptor-bound IgE antibodies from drug-sensitized mice. With these conjugates, the presence of hapten-specific IgE antibodies was investigated in patients' samples by ELISA, mediator release assay, and basophil activation test. Production of sulfidoleukotrienes by drug conjugates was determined in PBMCs from DF-hypersensitive patients. All conjugates were shown to carry more than two haptens per carrier molecule. Immunization of mice with drug conjugates induced drug-specific IgE antibodies capable of triggering mediator release. Therefore, the conjugates are suitable tools for detection of drug-specific antibodies and for determination of their anaphylactic activity. Fifty-nine patients were enrolled and categorized as hypersensitive either selectively to DF or to multiple NSAIDs. In none of the patients' samples evidence for drug/metabolite-specific IgE in serum or bound to allergic effector cells was found. In contrast, a small group of patients (8/59, 14%) displayed drug/metabolite-specific IgG.Conclusions/SignificanceWe found no evidence for an IgE-mediated effector mechanism based on haptenation of protein carriers in DF-hypersensitive patients. Furthermore, a potential involvement of the most relevant metabolites in DF hypersensitivity reactions could be excluded.

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Walther Schmid

Tin- and indium-mediated allylation in aqueous media: application to unprotected carbohydrates

α-Ketoacids as precursors for phenylalanine and tyrosine labelling in cell-based protein overexpression

Absorption of Cations by Roots. Effects of Hydrogen Ions and Essential Role of Calcium

Synthesis of fluorinated maltose derivatives for monitoring protein interaction by ¹⁹F NMR

Diclofenac Hypersensitivity: Antibody Responses to the Parent Drug and Relevant Metabolites

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Walther Schmid

Tin- and indium-mediated allylation in aqueous media: application to unprotected carbohydrates

α-Ketoacids as precursors for phenylalanine and tyrosine labelling in cell-based protein overexpression

Absorption of Cations by Roots. Effects of Hydrogen Ions and Essential Role of Calcium

Synthesis of fluorinated maltose derivatives for monitoring protein interaction by 19F NMR

Diclofenac Hypersensitivity: Antibody Responses to the Parent Drug and Relevant Metabolites

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Product

Resources

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Synthesis of fluorinated maltose derivatives for monitoring protein interaction by ¹⁹F NMR