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12. Application of recombinant antigen 5 allergens from 7 allergy-relevant hymenoptera species in diagnostics

Author

Schiener, M., Eberlein, B., Moreno-Aguilar, C., Pietsch, G., Serrano, P., McIntyre, M., Schwarze, L., Russkamp, D., Biedermann, T., Spillner, E., Darsow, U., Ollert, M., Schmidt-Weber, C.B., and Blank, S.

Subjects
fungi, Hymenoptera Venom Allergy, Antigen 5, Basophil Activation Test, Cross-reactivity, In Vitro Sige Testing
Abstract

BACKGROUND: Hymenoptera stings can cause severe anaphylaxis in untreated venom-allergic patients. A correct diagnosis regarding the relevant species for immunotherapy is often hampered by clinically irrelevant cross-reactivity. In vespid venom allergy, cross-reactivity between venoms of different species can be a diagnostic challenge. To address immunological IgE cross-reactivity on molecular level 7 recombinant antigens 5 of the most important Vespoidea groups were assessed by different diagnostic setups. METHODS: The antigens 5 of yellow jackets, hornets, European and American paper wasps, fire ants, white-faced hornets and Polybia wasps were recombinantly produced in insect cells, immunologically and structurally characterized and their sIgE reactivity assessed by ImmunoCAP, ELISA, cross-inhibition and basophil activation test (BAT) in patients with yellow jacket or Polistes venom allergy of two European geographical areas. RESULTS: All recombinant allergens were correctly folded and structural models and patient reactivity profiles suggested the presence of conserved and unique B cell epitopes. All antigens 5 showed extensive cross-reactivity in sIgE analyses, inhibition assays and BAT. This cross-reactivity was more pronounced in ImmunoCAP measurements with venom extracts than in sIgE analyses with recombinant antigens 5. Dose-response-curves with the allergens in BAT allowed a differentiated individual dissection of relevant sensitization. CONCLUSIONS: Due to extensive cross-reactivity in various diagnostic settings, antigens 5 are inappropriate markers for differential sIgE diagnostics in vespid venom allergy. However, the newly available antigens 5 from further vespid species and the combination of recombinant allergen-based sIgE measurements with BAT represents a practicable way to diagnose clinically relevant sensitization in vespid venom allergy.

Published
2016

13. AllergoOncology - the impact of allergy in oncology: EAACI position paper

Author

Jensen-Jarolim, E., primary, Bax, H. J., additional, Bianchini, R., additional, Capron, M., additional, Corrigan, C., additional, Castells, M., additional, Dombrowicz, D., additional, Daniels-Wells, T. R., additional, Fazekas, J., additional, Fiebiger, E., additional, Gatault, S., additional, Gould, H. J., additional, Janda, J., additional, Josephs, D. H., additional, Karagiannis, P., additional, Levi-Schaffer, F., additional, Meshcheryakova, A., additional, Mechtcheriakova, D., additional, Mekori, Y., additional, Mungenast, F., additional, Nigro, E. A., additional, Penichet, M. L., additional, Redegeld, F., additional, Saul, L., additional, Singer, J., additional, Spicer, J. F., additional, Siccardi, A. G., additional, Spillner, E., additional, Turner, M. C., additional, Untersmayr, E., additional, Vangelista, L., additional, and Karagiannis, S. N., additional

Published
2017
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15. Application of recombinant antigen 5 allergens from seven allergy-relevant Hymenoptera species in diagnostics

Author

Schiener, M., primary, Eberlein, B., additional, Moreno-Aguilar, C., additional, Pietsch, G., additional, Serrano, P., additional, McIntyre, M., additional, Schwarze, L., additional, Russkamp, D., additional, Biedermann, T., additional, Spillner, E., additional, Darsow, U., additional, Ollert, M., additional, Schmidt-Weber, C. B., additional, and Blank, S., additional

Published
2016
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20. Potential and limitations of epitope mapping and molecular targeting in Hymenoptera venom allergy.

Author

Fernandes LGR, Spillner E, and Jakob T

Abstract

Hymenoptera venom (HV) allergy can lead to life threatening conditions by specific IgE (sIgE)-mediated anaphylactic reactions. The knowledge about major allergens from venom of different clinically relevant species increased in the last decades, allowing the development of component-resolved diagnostics in which sIgE to single allergens is analysed. Despite these advances, the precise regions of the allergens that bind to IgE are only known for few HV allergens. The detailed characterization of IgE epitopes may provide valuable information to improve immunodiagnostic tests and to develop new therapeutic strategies using allergen-derived peptides or other targeted approaches. Epitope-resolved analysis is challenging, since the identification of conformational epitopes present in many allergens demands complex technologies for molecular analyses. Furthermore, functional analysis of the epitopeś interaction with their respective ligands is needed to distinguish epitopes that can activate the allergic immune response, from those that are recognized by irrelevant antibodies or T cell receptors from non-effector cells. In this review, we focus on the use of mapping and molecular targeting approaches for characterization of the epitopes of the major venom allergens of clinically relevant Hymenoptera species. The screening of the most relevant allergen peptides by epitope mapping could be helpful for the development of molecules that target major and immunodominant epitopes blocking the allergen induced cellular reactions as novel approach for the treatment of HV allergy., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The authors declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (© 2023 Fernandes, Spillner and Jakob.)

Published
2023
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21. Extract-Shaped Immune Repertoires as Source for Nanobody-Based Human IgE in Grass Pollen Allergy.

Author

Aagaard JB, Fischer M, Lober J, Neumann FB, Allahverdi D, Sivelle C, Miehe M, and Spillner E

Subjects
Animals, Humans, Pollen, Allergens, Poaceae, Immunoglobulin E, Plant Proteins, Mammals, Rhinitis, Allergic, Seasonal diagnosis, Single-Domain Antibodies, Hypersensitivity diagnosis, Hypersensitivity therapy
Abstract

The presence of allergen-specific IgE in serum is a biomarker for allergic disease. Specific IgE antibodies for research and diagnostics, however, remain scarce. In contrast to prototypic antibodies, camelid species have evolved single domains as moiety for antigen recognition. These so-called nanobodies represent a versatile platform for the development of diagnostic and therapeutic approaches. In this study, we aimed for generating nanobodies and derived IgE formats from an extract-shaped immune repertoire. Timothy grass pollen represents a complex, but well-defined mixture of individual allergens. Therefore, a repertoire library from a timothy grass pollen extract immunised llama was established. The selection by phage display yielded 3 nanobodies with immunoreactivity to the extract. IgE-like nanobody-based human IgE (nb-hIgE) antibodies were produced in mammalian cells and assessed in different immunoassays and commercial platforms. Immunoblotting and diagnostic ImmunoCap analysis of single timothy grass pollen allergens identified the major allergens Phl p 6 and Phl p 4 as targets. Assessment of immunoreactivity further documented significant molecular cross-reactivity with pollen extract of different grass species and variant presence of allergens within extracts of Pooideae grasses. In summary, our study shows that extract-based immunisation enables the generation of allergen-specific nanobodies and derived nb-hIgE formats linking nanobody technologies with allergological applications., (© 2023. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2023
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22. Surfaceome Profiling Suggests Potential of Anti-MUC1×EGFR Bispecific Antibody for Breast Cancer Targeted Therapy.

Author

Pourjafar M, Saidijam M, Miehe M, Najafi R, Soleimani M, and Spillner E

Subjects
Humans, Female, Mucin-1 genetics, Cell Line, ErbB Receptors genetics, Breast Neoplasms therapy, Breast Neoplasms drug therapy, Antibodies, Bispecific pharmacology, Antibodies, Bispecific therapeutic use, Antibodies, Bispecific genetics
Abstract

Breast cancer (BC) treatment has traditionally been challenging due to tumor heterogeneity. Bispecific antibodies (bsAbs) offer a promising approach for overcoming these challenges by targeting multiple specific epitopes. In the current study, we designed a new bsAb against the most common BC cell surface proteins (SPs). To achieve this, we analyzed RNA-sequencing data to identify differentially expressed genes, which were further evaluated using Gene Ontology enrichment, Hidden Markov Models, clinical trial data, and survival analysis to identify druggable gene-encoding cell SPs. Based on these analyses, we constructed and expressed a bsAb targeting the mucin 1 (MUC1) and epidermal growth factor receptor (EGFR) proteins, which are the dominant druggable gene-encoding cell SPs in BC. The recombinant anti-MUC1×EGFR bsAb demonstrated efficient production and high specificity for MUC1 and EGFR + cell lines and BC tissue. Furthermore, the bsAb significantly reduced the proliferation and migration of BC cells. Our results suggested that simultaneous targeting with bsAbs could be a promising targeted therapy for improving the overall efficacy of BC treatment., (Copyright © 2023 Wolters Kluwer Health, Inc. All rights reserved.)

Published
2023
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23. Structural and functional analyses of antibodies specific for modified core N-glycans suggest a role in T H 2 responses.

Author

Plum M, Tjerrild L, Raiber T, Bantleon F, Bantleon S, Miehe M, Jabs F, Seismann H, Möbs C, Pfützner W, Jakob T, Andersen GR, and Spillner E

Subjects
Humans, Polysaccharides, Carbohydrates, Allergens, Epitopes, Immunoglobulin G, Cross Reactions, Immunoglobulin E, Hypersensitivity diagnosis
Abstract

Background: Immune responses to N-glycan structures from allergens and parasites are often associated with pronounced, high affinity IgE reactivities. Cross-reactive carbohydrate determinants (CCDs) are constituted by modified N-glycan core structures and represent the most frequently recognized epitopes in allergic immune responses. Although recently accepted as potentially allergenic epitopes, the biological and clinical relevance as well as structural and functional characteristics of CCD-specific antibodies remain elusive., Methods: In order to gain structural insights into the recognition of CCDs, two specific antibody fragments were isolated from a leporid immune repertoire library and converted into human/leporid IgE and IgG formats. The antibody formats were assessed by ELISA and surface plasmon resonance, structural and functional analyses were performed by X-ray crystallography, mediator release, and ELIFAB assays., Results: The recombinant IgE exhibited highly specific interactions with different types of CCDs on numerous CCD-carrying glycoproteins. Crystal structures of two CCD-specific antibodies, one of which in complex with a CCD-derived disaccharide emphasize that mechanisms of core glycan epitope recognition are as specific as those governing protein epitope recognition. The rIgE triggered immediate cellular responses via FcεRI cross-linking and mediated facilitated antigen presentation by binding of IgE/antigen complexes to CD23, a process that also could be blocked by IgG of allergic patients., Conclusions: Our study provides evidence for the relevance of N-glycan recognition in T H 2 responses and corroborates that IgE and IgG antibodies to ubiquitous carbohydrate epitopes can be equivalent to those directed against proteinaceous epitopes with implications for diagnostic and immunotherapeutic concepts., (© 2022 The Authors. Allergy published by European Academy of Allergy and Clinical Immunology and John Wiley & Sons Ltd.)

Published
2023
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24. Construction, expression and functional characterization of an engineered antibody against tumor antigen MUC-1C.

Author

Pourjafar M, Miehe M, Najafi R, Soleimani M, and Spillner E

Subjects
Antigens, Neoplasm genetics, Humans, Immunotherapy, Recombinant Proteins chemistry, Antibodies, Monoclonal, Single-Chain Antibodies genetics
Abstract

Minibodies (single-chain Fv-CH3) are fusion proteins of a single-chain variable fragment (scFv) to the human IgG1 CH3 domain. They exhibit superior properties as compared to whole antibodies due to their smaller size and less complex composition, and also as compared to scFvs due to the two antigen-binding domains, for immunotherapy and imaging of various carcinomas including breast cancer. In the current study, efficient production of the recombinant anti-MUC-1 minibody for its dominant format (VH-VL) was obtained in the periplasmic space of the Escherichia coliBL21 (DE3) expression system. The active recombinant protein was successfully purified from soluble fraction. Functional assays presented the in vitro targeting properties and specificity of the expressed anti-MUC-1 HL minibody in the MUC-1 positive cell lines compared to normal cell., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published
2022
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27. Carbohydrate epitopes currently recognized as targets for IgE antibodies.

Author

Platts-Mills TA, Hilger C, Jappe U, van Hage M, Gadermaier G, Spillner E, Lidholm J, Keshavarz B, Aalberse RC, van Ree R, Goodman RE, and Pomés A

Subjects
Animals, Carbohydrates, Cross Reactions, Epitopes, Humans, Allergens, Immunoglobulin E
Abstract

Until recently, glycan epitopes have not been documented by the WHO/IUIS Allergen Nomenclature Sub-Committee. This was in part due to scarce or incomplete information on these oligosaccharides, but also due to the widely held opinion that IgE to these epitopes had little or no relevance to allergic symptoms. Most IgE-binding glycans recognized up to 2008 were considered to be "classical" cross-reactive carbohydrate determinants (CCD) that occur in insects, some helminths and throughout the plant kingdom. Since 2008, the prevailing opinion on lack of clinical relevance of IgE-binding glycans has been subject to a reevaluation. This was because IgE specific for the mammalian disaccharide galactose-alpha-1,3-galactose (alpha-gal) was identified as a cause of delayed anaphylaxis to mammalian meat in the United States, an observation that has been confirmed by allergists in many parts of the world. Several experimental studies have shown that oligosaccharides with one or more terminal alpha-gal epitopes can be attached as a hapten to many different mammalian proteins or lipids. The classical CCDs also behave like haptens since they can be expressed on proteins from multiple species. This is the explanation for extensive in vitro cross-reactivity related to CCDs. Because of these developments, the Allergen Nomenclature Sub-Committee recently decided to include glycans as potentially allergenic epitopes in an adjunct section of its website (www.allergen.org). In this article, the features of the main glycan groups known to be involved in IgE recognition are revisited, and their characteristic structural, functional, and clinical features are discussed., (© 2021 EAACI and John Wiley and Sons A/S. Published by John Wiley and Sons Ltd.)

Published
2021
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28. Structure of intact IgE and the mechanism of ligelizumab revealed by electron microscopy.

Author

Jensen RK, Jabs F, Miehe M, Mølgaard B, Pfützner W, Möbs C, Spillner E, and Andersen GR

Subjects
Antibodies, Monoclonal, Humanized, Microscopy, Electron, Omalizumab, Immunoglobulin E, Receptors, IgE
Abstract

Background: IgE is the central antibody isotype in TH2-biased immunity and allergic diseases. The structure of intact IgE and the impact of IgE-targeting molecules on IgE however remain elusive. In order to obtain insights into IgE biology and the clinical impact, we aimed for structure determination of IgE and the complex of IgE with the anti-IgE antibody ligelizumab., Methods: Structures of two distinct intact IgE with specificity for cross-reactive carbohydrate determinants and Der p 2 as well as complexes of ligelizumab-Fab with IgE and IgE Fc were assessed by negative stain electron microscopy and solution scattering. Inhibition of IgE binding and displacement of receptor-bound IgE were assessed using cellular assays, basophil activation testing and ELIFAB assays., Results: Our data reveal that the investigated IgE molecules share an overall rigid conformation. In contrast to the IgE Fc fragment, the IgE Fc in intact IgE is significantly less asymmetrically bent. The proximal and the distal Fabs are rigidly tethered to the Fc. Binding of ligelizumab to IgE in a 2:1 stoichiometry induces an extended and twofold symmetrical conformation of IgE, which retains a rigid Fab-Fc architecture. Analyses of effector cell activation revealed that ligelizumab inhibits IgE binding without displacing receptor-bound IgE. Together with an interference of CD23 binding, the data underline a functional activity similar to omalizumab., Conclusions: Our data reveal the first structures of intact IgE suggesting that the IgE Fab is fixed relative to the Fc. Furthermore, we provide a structural rationale for the inhibitory mechanism of ligelizumab., (© 2020 EAACI and John Wiley and Sons A/S. Published by John Wiley and Sons Ltd.)

Published
2020
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30. In Silico Evaluation of the Binding Site of Fucosyltransferase 8 and First Attempts to Synthesize an Inhibitor with Drug-Like Properties.

Author

Strecker C, Baerenfaenger M, Miehe M, Spillner E, and Meyer B

Subjects
Allosteric Regulation, Binding Sites, Enzyme Inhibitors chemical synthesis, Enzyme Inhibitors metabolism, Fucosyltransferases antagonists & inhibitors, Kinetics, Ligands, Magnetic Resonance Spectroscopy, Molecular Dynamics Simulation, src Homology Domains, Enzyme Inhibitors chemistry, Fucosyltransferases metabolism
Abstract

Core fucosylation of N-glycans is catalyzed by fucosyltransferase 8 and is associated with various types of cancer. Most reported fucosyltransferase inhibitors contain non-drug-like features, such as charged groups. New starting points for the development of inhibitors of fucosyltransferase 8 using a fragment-based strategy are presented. Firstly, we discuss the potential of a new putative binding site of fucosyltransferase 8 that, according to a molecular dynamics (MD) simulation, is made accessible by a significant motion of the SH3 domain. This might enable the design of completely new inhibitor types for fucosyltransferase 8. Secondly, we have performed a docking study targeting the donor binding site of fucosyltransferase 8, and this yielded two fragments that were linked and trimmed in silico. The resulting ligand was synthesized. Saturation transfer difference (STD) NMR confirmed binding of the ligand featuring a pyrazole core that mimics the guanine moiety. This ligand represents the first low-molecular-weight compound for the development of inhibitors of fucosyltransferase 8 with drug-like properties., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2020
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31. The Honeybee Venom Major Allergen Api m 10 (Icarapin) and Its Role in Diagnostics and Treatment of Hymenoptera Venom Allergy.

Author

Jakob T, Rauber MM, Perez-Riverol A, Spillner E, and Blank S

Subjects
Animals, Arthropod Venoms pharmacology, Bee Venoms pharmacology, Humans, Risk Factors, Allergens therapeutic use, Arthropod Venoms therapeutic use, Bee Venoms therapeutic use, Desensitization, Immunologic methods, Hymenoptera pathogenicity, Insect Bites and Stings therapy
Abstract

Purpose of Review: In Hymenoptera venom allergy, the research focus has moved from whole venoms to individual allergenic molecules. Api m 10 (icarapin) has been described as a major allergen of honeybee venom (HBV) with potentially high relevance for diagnostics and therapy of venom allergy. Here, we review recent studies on Api m 10 characteristics as well as its role in component-resolved diagnostics and potential implications for venom-specific immunotherapy (VIT)., Recent Findings: Api m 10 is a major allergen of low abundance in HBV. It is an obviously unstable protein of unknown function that exhibits homologs in other insect species. Despite its low abundance in HBV, 35 to 72% of HBV-allergic patients show relevant sensitization to this allergen. Api m 10 is a marker allergen for HBV sensitization, which in many cases can help to identify primary sensitization to HBV and, hence, to discriminate between genuine sensitization and cross-reactivity. Moreover, Api m 10 might support personalized risk stratification in VIT, as dominant sensitization to Api m 10 has been identified as risk factor for treatment failure. This might be of particular importance since Api m 10 is strongly underrepresented in some therapeutic preparations commonly used for VIT. Although the role of Api m 10 in HBV allergy and tolerance induction during VIT is not fully understood, it certainly is a useful tool to unravel primary sensitization and individual sensitization profiles in component-resolved diagnostics (CRD). Moreover, a potential of Api m 10 to contribute to personalized treatment strategies in HBV allergy is emerging.

Published
2020
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32. Inhibiting phosphatase SHIP-1 enhances suboptimal IgE-mediated activation of human blood basophils but inhibits IgE-mediated activation of cultured human mast cells.

Author

Rasmussen P, Spillner E, and Hoffmann HJ

Subjects
Adult, Allergens immunology, Female, Humans, Hypersensitivity immunology, Hypersensitivity metabolism, Male, Middle Aged, Receptors, IgE metabolism, Young Adult, Basophils immunology, Basophils metabolism, Immunoglobulin E immunology, Mast Cells immunology, Mast Cells metabolism, Phosphatidylinositol-3,4,5-Trisphosphate 5-Phosphatases metabolism
Abstract

IgE-mediated activation of basophil granulocytes and mast cells follows a bell-shaped dose-response curve. The decreased activation at supraoptimal allergen stimulation is thought to be associated with SH2-containing inositol-5'-phosphatase 1 (SHIP-1). SHIP-1 phosphorylation is inversely related to IgE-mediated releasability of basophils. This study sought to clarify the regulatory role of SHIP-1 in degranulation of basophil granulocytes and mast cells by selective inhibition of the phosphatase function of SHIP-1with 3-α-aminocholestane (3-α-AC). Six grass pollen allergic patients, six non-responder patients and six cultured human primary mast cell lines were included. The effect of 3-α-AC (1-60 μM, 30 min, 37 °C) was analyzed at individual suboptimal, optimal and supra-optimal allergen concentrations. The activity, upregulation of CD63, measured at different conditions was compared to evaluate the maximal effect of selective SHIP-1 inhibition. Basophils of five non-responder patients were treated with 3-α-AC (10 μM, 30 min, 37 °C). At high concentrations (>60 μM) of 3-α-AC, cells appeared to enter apoptosis. The median reactivity increased from 27.1% to 44.9% CD63 + basophils at 10 μM of 3-α-AC and suboptimal allergen stimulation (p = 0.0153). There was no effect on blood basophils of 3-α-AC at optimal or supra-optimal allergen concentrations. In contrast, treatment with more than 6 μM 3-α-AC significantly inhibited mast cell reactivity. 10 μM 3-α-AC reduced median reactivity from 32.85% to 16.5% CD63+ mast cells (p = 0.0465). Treatment with 3-α-AC did not increase response of basophils of non-responder patients. Modulating blood basophils with 3-α-AC enhanced reactivity only at suboptimal allergen concentration, and basophils from non-responders did not regain responsiveness to IgE stimulation. 3-α-AC inhibited the IgE response of mast cells in a dose dependent manner., (Copyright © 2019 European Federation of Immunological Societies. Published by Elsevier B.V. All rights reserved.)

Published
2019
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33. AllergoOncology: Generating a canine anticancer IgE against the epidermal growth factor receptor.

Author

Fazekas-Singer J, Singer J, Ilieva KM, Matz M, Herrmann I, Spillner E, Karagiannis SN, and Jensen-Jarolim E

Subjects
Animals, Cell Line, Cricetulus, Dogs, ErbB Receptors genetics, Humans, Neoplasms drug therapy, Recombinant Proteins immunology, Antineoplastic Agents, Immunological pharmacology, Cetuximab pharmacology, ErbB Receptors immunology, Immunoglobulin E immunology
Published
2018
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34. Characterization of the honeybee venom proteins C1q-like protein and PVF1 and their allergenic potential.

Author

Russkamp D, Van Vaerenbergh M, Etzold S, Eberlein B, Darsow U, Schiener M, De Smet L, Absmaier M, Biedermann T, Spillner E, Ollert M, Jakob T, Schmidt-Weber CB, de Graaf DC, and Blank S

Subjects
Allergens chemistry, Allergens toxicity, Animals, Baculoviridae, Cloning, Molecular, Gene Expression Regulation, Humans, Insect Bites and Stings, Sf9 Cells, Bee Venoms chemistry, Bees physiology, Hypersensitivity, Insect Proteins chemistry, Insect Proteins toxicity
Abstract

Honeybee (Apis mellifera) venom (HBV) represents an ideal model to study the role of particular venom components in allergic reactions in sensitized individuals as well as in the eusociality of Hymenoptera species. The aim of this study was to further characterize the HBV components C1q-like protein (C1q) and PDGF/VEGF-like factor 1 (PVF1). C1q and PVF1 were produced as recombinant proteins in insect cells. Their allergenic properties were examined by determining the level of specific IgE antibodies in the sera of HBV-allergic patients (n = 26) as well as by their capacity to activate patients' basophils (n = 11). Moreover, the transcript heterogeneity of PVF1 was analyzed. It could be demonstrated that at least three PVF1 variants are present in the venom gland, which all result from alternative splicing of one transcript. Additionally, recombinant C1q and PVF1 from Spodoptera frugiperda insect cells exhibited specific IgE reactivity with approximately 38.5% of sera of HBV-allergic patients. Interestingly, both proteins were unable to activate basophils of the patients, questioning their role in the context of clinically relevant sensitization. Recombinant C1q and PVF1 can build the basis for a deeper understanding of the molecular mechanisms of Hymenoptera venoms. Moreover, the conflicting results between IgE sensitization and lack of basophil activation, might in the future contribute to the identification of factors that determine the allergenic potential of proteins., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2018
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35. Venoms of Neotropical wasps lack cross-reactive carbohydrate determinants enabling reliable protein-based specific IgE determination.

Author

Perez-Riverol A, Miehe M, Jabs F, Seismman H, Romani Fernandes LG, de Lima Zollner R, Jakob T, Brochetto Braga MR, and Spillner E

Subjects
Allergens immunology, Animals, Humans, Bee Venoms immunology, Carbohydrates immunology, Cross Reactions immunology, Immunoglobulin E immunology, Wasp Venoms immunology, Wasps immunology
Published
2018
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36. Trapping IgE in a closed conformation by mimicking CD23 binding prevents and disrupts FcεRI interaction.

Author

Jabs F, Plum M, Laursen NS, Jensen RK, Mølgaard B, Miehe M, Mandolesi M, Rauber MM, Pfützner W, Jakob T, Möbs C, Andersen GR, and Spillner E

Subjects
Antibodies, Anti-Idiotypic chemistry, Antibodies, Anti-Idiotypic metabolism, Binding Sites, Crystallography, X-Ray, Epitopes metabolism, Humans, Immunoglobulin E metabolism, Immunoglobulin Fc Fragments chemistry, Immunoglobulin Fc Fragments metabolism, Models, Molecular, Protein Binding, Protein Conformation, Receptors, IgE metabolism, Single-Domain Antibodies chemistry, Single-Domain Antibodies metabolism, Epitopes chemistry, Immunoglobulin E chemistry, Receptors, IgE chemistry
Abstract

Anti-IgE therapeutics interfere with the ability of IgE to bind to its receptors on effector cells. Here we report the crystal structure of an anti-IgE single-domain antibody in complex with an IgE Fc fragment, revealing how the antibody inhibits interactions between IgE and the two receptors FcεRI and CD23. The epitope overlaps only slightly with the FcεRI-binding site but significantly with the CD23-binding site. Solution scattering studies of the IgE Fc reveal that antibody binding induces a half-bent conformation in between the well-known bent and extended IgE Fc conformations. The antibody acts as functional homolog of CD23 and induces a closed conformation of IgE Fc incompatible with FcεRI binding. Notably the antibody displaces IgE from both CD23 and FcεRI, and abrogates allergen-mediated basophil activation and facilitated allergen binding. The inhibitory mechanism might facilitate strategies for the future development of anti-IgE therapeutics for treatment of allergic diseases.

Published
2018
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37. Phospholipase A1-based cross-reactivity among venoms of clinically relevant Hymenoptera from Neotropical and temperate regions.

Author

Perez-Riverol A, Fernandes LGR, Musacchio Lasa A, Dos Santos-Pinto JRA, Moitinho Abram D, Izuka Moraes GH, Jabs F, Miehe M, Seismman H, Palma MS, de Lima Zollner R, Spillner E, and Brochetto-Braga MR

Subjects
Allergens immunology, Animals, Ants enzymology, Ants immunology, Bees enzymology, Bees immunology, Brazil, Cross Reactions, Europe, Female, Humans, Hypersensitivity blood, Hypersensitivity etiology, Immunoglobulin E blood, Immunoglobulin E immunology, Immunoglobulin G blood, Immunoglobulin G immunology, Intradermal Tests, Mice, Mice, Inbred BALB C, Models, Molecular, Protein Conformation, Recombinant Proteins immunology, Wasps enzymology, Wasps immunology, Ant Venoms immunology, Bee Venoms immunology, Hypersensitivity immunology, Insect Proteins immunology, Phospholipases A1 immunology, Wasp Venoms immunology
Abstract

Molecular cross-reactivity caused by allergen homology or cross-reactive carbohydrate determinants (CCDs) is a major challenge for diagnosis and immunotherapy of insect venom allergy. Venom phospholipases A1 (PLA1s) are classical, mostly non-glycosylated wasp and ant allergens that provide diagnostic benefit for differentiation of genuine sensitizations from cross-reactivity. As CCD-free molecules, venom PLA1s are not causative for CCD-based cross-reactivity. Little is known however about the protein-based cross-reactivity of PLA1 within vespid species. Here, we address PLA1-based cross-reactivity among ten clinically relevant Hymenoptera venoms from Neotropical and temperate regions including Polybia paulista (paulistinha) venom and Vespula vulgaris (yellow jacket) venom. In order to evaluate cross-reactivity, sera of mice sensitized with recombinant PLA1 (rPoly p 1) from P. paulista wasp venom were used. Pronounced IgE and IgG based cross-reactivity was detected for wasp venoms regardless the geographical region of origin. The cross-reactivity correlated well with the identity of the primary sequence and 3-D models of PLA1 proteins. In contrast, these mice sera showed no reaction with honeybee (HBV) and fire ant venom. Furthermore, sera from patients monosensitized to HBV and fire ants did not recognize the rPoly p 1 in immunoblotting. Our findings reveal the presence of conserved epitopes in the PLA1s from several clinically relevant wasps as major cause of PLA1-based in vitro cross-reactivity. These findings emphasize the limitations but also the potential of PLA1-based HVA diagnostics., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published
2018
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38. Component resolved diagnostics for hymenoptera venom allergy.

Author

Jakob T, Müller U, Helbling A, and Spillner E

Subjects
Animals, Cross Reactions, Humans, Hymenoptera immunology, Immunization, Immunoglobulin E metabolism, Precision Medicine, Risk, Allergens immunology, Arthropod Venoms immunology, Desensitization, Immunologic methods, Hypersensitivity diagnosis
Abstract

Purpose of Review: Component-resolved diagnostics makes use of defined allergen molecules to analyse IgE-mediated sensitizations at a molecular level. Here, we review recent studies on the use of component-resolved diagnostics in the field of Hymenoptera venom allergy (HVA) and discuss its benefits and limitations., Recent Findings: Component resolution in HVA has moved from single molecules to panels of allergens. Detection of specific immunoglobulin E (sIgE) to marker and cross-reactive venom allergens has been reported to facilitate the discrimination between primary sensitization and cross-reactivity and thus, to provide a better rationale for prescribing venom immunotherapy (VIT), particularly in patients sensitized to both honeybee and vespid venom. Characterization of IgE reactivity to a broad panel of venom allergens has allowed the identification of different sensitization profiles that in honeybee venom allergy were associated with increased risks for side effects or treatment failure of VIT. In contrast, component resolution so far has failed to provide reliable markers for the discrimination of sensitizations to venoms of different members of Vespidae., Summary: Component-resolved diagnostics allows a better understanding of the complexity of sensitization and cross-reactivities in HVA. In addition, the enhanced resolution and precision may allow identification of biomarkers, which can be used for risk stratification in VIT. Knowledge about the molecular composition of different therapeutic preparations may enable the selection of appropriate preparations for VIT according to individual sensitization profiles, an approach consistent with the goals of personalized medicine.

Published
2017
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39. N-glycan maturation mutants in Lotus japonicus for basic and applied glycoprotein research.

Author

Pedersen CT, Loke I, Lorentzen A, Wolf S, Kamble M, Kristensen SK, Munch D, Radutoiu S, Spillner E, Roepstorff P, Thaysen-Andersen M, Stougaard J, and Dam S

Subjects
Glycoproteins genetics, Glycosylation, N-Acetylglucosaminyltransferases genetics, N-Acetylglucosaminyltransferases metabolism, Plant Proteins genetics, Glycoproteins isolation & purification, Lotus genetics, Lotus metabolism, Plant Proteins metabolism, Polysaccharides metabolism
Abstract

Studies of protein N-glycosylation are important for answering fundamental questions on the diverse functions of glycoproteins in plant growth and development. Here we generated and characterised a comprehensive collection of Lotus japonicusLORE1 insertion mutants, each lacking the activity of one of the 12 enzymes required for normal N-glycan maturation in the glycosylation machinery. The inactivation of the individual genes resulted in altered N-glycan patterns as documented using mass spectrometry and glycan-recognising antibodies, indicating successful identification of null mutations in the target glyco-genes. For example, both mass spectrometry and immunoblotting experiments suggest that proteins derived from the α1,3-fucosyltransferase (Lj3fuct) mutant completely lacked α1,3-core fucosylation. Mass spectrometry also suggested that the Lotus japonicus convicilin 2 was one of the main glycoproteins undergoing differential expression/N-glycosylation in the mutants. Demonstrating the functional importance of glycosylation, reduced growth and seed production phenotypes were observed for the mutant plants lacking functional mannosidase I, N-acetylglucosaminyltransferase I, and α1,3-fucosyltransferase, even though the relative protein composition and abundance appeared unaffected. The strength of our N-glycosylation mutant platform is the broad spectrum of resulting glycoprotein profiles and altered physiological phenotypes that can be produced from single, double, triple and quadruple mutants. This platform will serve as a valuable tool for elucidating the functional role of protein N-glycosylation in plants. Furthermore, this technology can be used to generate stable plant mutant lines for biopharmaceutical production of glycoproteins displaying relative homogeneous and mammalian-like N-glycosylation features., (© 2017 The Authors The Plant Journal © 2017 John Wiley & Sons Ltd.)

Published
2017
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41. Diagnostics in Hymenoptera venom allergy: current concepts and developments with special focus on molecular allergy diagnostics.

Author

Jakob T, Rafei-Shamsabadi D, Spillner E, and Müller S

Abstract

Background: The high rate of asymptomatic sensitization to Hymenoptera venom, difficulty in correctly identifying Hymenoptera and loss of sensitization over time make an accurate diagnosis of Hymenoptera venom allergy challenging. Although routine diagnostic tests encompassing skin tests and the detection of venom-specific IgE antibodies with whole venom preparations are reliable, they offer insufficient precision in the case of double sensitized patients or in those with a history of sting anaphylaxis, in whom sensitization cannot be proven or only to the presumably wrong venom., Methods: Systematic literature research and review of current concepts of diagnostic testing in Hymenoptera venom allergy., Results and Discussion: Improvements in diagnostic accuracy over recent years have mainly been due to the increasing use of molecular allergy diagnostics. Detection of specific IgE antibodies to marker and cross-reactive venom allergens improves the discrimination between genuine sensitization and cross-reactivity, and this provides a better rationale for prescribing venom immunotherapy. The basophil activation test has also increased diagnostic accuracy by reducing the number of Hymenoptera venom sensitizations overlooked with routine tests. This paper reviews current concepts of diagnostic testing in Hymenoptera venom allergy and suggests fields for further development.

Published
2017
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42. Predominant Api m 10 sensitization as risk factor for treatment failure in honey bee venom immunotherapy.

Author

Frick M, Fischer J, Helbling A, Ruëff F, Wieczorek D, Ollert M, Pfützner W, Müller S, Huss-Marp J, Dorn B, Biedermann T, Lidholm J, Ruecker G, Bantleon F, Miehe M, Spillner E, and Jakob T

Subjects
Adolescent, Adult, Aged, Allergens immunology, Bee Venoms immunology, Child, Cross Reactions, Female, Humans, Hypersensitivity immunology, Immunization, Immunoglobulin E metabolism, Male, Middle Aged, Retrospective Studies, Risk Factors, Treatment Failure, Young Adult, Allergens therapeutic use, Bee Venoms therapeutic use, Desensitization, Immunologic methods, Hypersensitivity therapy
Abstract

Background: Component resolution recently identified distinct sensitization profiles in honey bee venom (HBV) allergy, some of which were dominated by specific IgE to Api m 3 and/or Api m 10, which have been reported to be underrepresented in therapeutic HBV preparations., Objective: We performed a retrospective analysis of component-resolved sensitization profiles in HBV-allergic patients and association with treatment outcome., Methods: HBV-allergic patients who had undergone controlled honey bee sting challenge after at least 6 months of HBV immunotherapy (n = 115) were included and classified as responder (n = 79) or treatment failure (n = 36) on the basis of absence or presence of systemic allergic reactions upon sting challenge. IgE reactivity to a panel of HBV allergens was analyzed in sera obtained before immunotherapy and before sting challenge., Results: No differences were observed between responders and nonresponders regarding levels of IgE sensitization to Api m 1, Api m 2, Api m 3, and Api m 5. In contrast, Api m 10 specific IgE was moderately but significantly increased in nonresponders. Predominant Api m 10 sensitization (>50% of specific IgE to HBV) was the best discriminator (specificity, 95%; sensitivity, 25%) with an odds ratio of 8.444 (2.127-33.53; P = .0013) for treatment failure. Some but not all therapeutic HBV preparations displayed a lack of Api m 10, whereas Api m 1 and Api m 3 immunoreactivity was comparable to that of crude HBV. In line with this, significant Api m 10 sIgG 4 induction was observed only in those patients who were treated with HBV in which Api m 10 was detectable., Conclusions: Component-resolved sensitization profiles in HBV allergy suggest predominant IgE sensitization to Api m 10 as a risk factor for treatment failure in HBV immunotherapy., (Copyright © 2016 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2016
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43. Human IgE is efficiently produced in glycosylated and biologically active form in lepidopteran cells.

Author

Bantleon F, Wolf S, Seismann H, Dam S, Lorentzen A, Miehe M, Jabs F, Jakob T, Plum M, and Spillner E

Subjects
Animals, Antibodies, Neoplasm biosynthesis, Antibodies, Neoplasm genetics, Antibodies, Neoplasm immunology, Humans, Immunoglobulin E genetics, Immunoglobulin E immunology, Immunoglobulin E isolation & purification, Polysaccharides analysis, Recombinant Proteins biosynthesis, Recombinant Proteins genetics, Recombinant Proteins immunology, Recombinant Proteins isolation & purification, Sf9 Cells, Spodoptera, Surface Plasmon Resonance, Cloning, Molecular methods, Immunoglobulin E biosynthesis
Abstract

TH2-biased immunity to parasites and allergens is often associated with increased levels of antigen-specific and high affinity IgE. The role in reacting against minute amounts of target structures and to provoke severe anaphylactic reactions renders IgE a mechanistically outstanding isotype. IgE represents the least abundant serum antibody isotype and exhibits a variety of peculiarities including structure, extensive glycosylation and effector functions. Despite large progress in antibody technologies, however, the recombinant access to isotypes beyond IgG such as IgE still is scarce. The capacity of expression systems has to meet the complex structural conformations and the extensive posttranslational modifications that are indispensable for biological activity. In order to provide alternatives to mammalian expression systems with often low yield and a more complex glycosylation pattern we established the recombinant production of the highly complex IgE isotype in insect cells. Recombinant IgE (rIgE) was efficiently assembled and secreted into the supernatant in yields of >30 mg/L. Purification from serum free medium using different downstream processing methods provided large amounts of rIgE. This exhibited a highly specific interaction with its antigen, therapeutic anti-IgE and its high affinity receptor, the FcεRI. Lectins and glyco-proteomic analyses proved the presence of prototypic insect type N-glycans on the epsilon heavy chain. Mediator release assays demonstrated a biological activity of the rIgE comparable to IgE derived from mammalian cells. In summary the expression in insect cells provides rIgE with variant glycosylation pattern, but retained characteristics and biological activity. Therefore our data contribute to the understanding of functional and structural aspects and potential use of the IgE isotype., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published
2016
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44. Structure of the omalizumab Fab.

Author

Jensen RK, Plum M, Tjerrild L, Jakob T, Spillner E, and Andersen GR

Subjects
Antibodies, Anti-Idiotypic chemistry, Antibodies, Anti-Idiotypic metabolism, Crystallization, HEK293 Cells, Humans, Immunoglobulin E chemistry, Immunoglobulin E metabolism, Protein Structure, Secondary, Protein Structure, Tertiary, Receptors, IgE chemistry, Receptors, IgE metabolism, Immunoglobulin Fab Fragments chemistry, Immunoglobulin Fab Fragments metabolism, Omalizumab chemistry, Omalizumab metabolism
Abstract

Omalizumab is a humanized anti-IgE antibody that inhibits the binding of IgE to its receptors on mast cells and basophils, thus blocking the IgE-mediated release of inflammatory mediators from these cells. Omalizumab binds to the Fc domains of IgE in proximity to the binding site of the high-affinity IgE receptor FcℇRI, but the epitope and the mechanisms and conformations governing the recognition remain unknown. In order to elucidate the molecular mechanism of its anti-IgE activity, the aim was to analyse the interaction of omalizumab with human IgE. Therefore, IgE Fc Cℇ2-4 was recombinantly produced in mammalian HEK-293 cells. Functionality of the IgE Fc was proven by ELISA and mediator-release assays. Omalizumab IgG was cleaved with papain and the resulting Fab was purified by ion-exchange chromatography. The complex of IgE Fc with omalizumab was prepared by size-exclusion chromatography. However, crystals containing the complex were not obtained, suggesting that the process of crystallization favoured the dissociation of the two proteins. Instead, two structures of the omalizumab Fab with maximum resolutions of 1.9 and 3.0 Å were obtained. The structures reveal the arrangement of the CDRs and the position of omalizumab residues known from prior functional studies to be involved in IgE binding. Thus, the structure of omalizumab provides the structural basis for understanding the function of omalizumab, allows optimization of the procedure for complex crystallization and poses questions about the conformational requirements for anti-IgE activity.

Published
2015
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45. IgE recognition of chimeric isoforms of the honeybee (Apis mellifera) venom allergen Api m 10 evaluated by protein array technology.

Author

Van Vaerenbergh M, De Smet L, Rafei-Shamsabadi D, Blank S, Spillner E, Ebo DG, Devreese B, Jakob T, and de Graaf DC

Subjects
Allergens chemistry, Allergens genetics, Amino Acid Sequence, Animals, Exons genetics, Gene Expression Regulation, Humans, Insect Proteins chemistry, Insect Proteins genetics, Insect Proteins metabolism, Molecular Sequence Data, Protein Isoforms chemistry, Protein Isoforms genetics, Protein Isoforms immunology, Proteomics, RNA, Messenger genetics, RNA, Messenger metabolism, Sequence Alignment, Allergens immunology, Bee Venoms immunology, Bees immunology, Immunoglobulin E immunology, Protein Array Analysis methods
Abstract

Api m 10 has recently been established as novel major allergen that is recognized by more than 60% of honeybee venom (HBV) allergic patients. Previous studies suggest Api m 10 protein heterogeneity which may have implications for diagnosis and immunotherapy of HBV allergy. In the present study, RT-PCR revealed the expression of at least nine additional Api m 10 transcript isoforms by the venom glands. Two distinct mechanisms are responsible for the generation of these isoforms: while the previously known variant 2 is produced by an alternative splicing event, novel identified isoforms are intragenic chimeric transcripts. To the best of our knowledge, this is the first report of the identification of chimeric transcripts generated by the honeybee. By a retrospective proteomic analysis we found evidence for the presence of several of these isoforms in the venom proteome. Additionally, we analyzed IgE reactivity to different isoforms by protein array technology using sera from HBV allergic patients, which revealed that IgE recognition of Api m 10 is both isoform- and patient-specific. While it was previously demonstrated that the majority of HBV allergic patients display IgE reactivity to variant 2, our study also shows that some patients lacking IgE antibodies for variant 2 display IgE reactivity to two of the novel identified Api m 10 variants, i.e. variants 3 and 4., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published
2015
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