Your search keyword '"Sandra Scheiblhofer"' showing total 88 results

1. Laser facilitated epicutaneous peptide immunization using dry patch technology

Author

Stephan Drothler, Sandra Scheiblhofer, Maximilian Boesch, Werner Braun, Reinhard Braun, and Richard Weiss

Subjects

Technology, medicine.medical_treatment, T cell, Epitope, Mice, Cancer immunotherapy, In vivo, medicine, Animals, Cytotoxic T cell, Antigen-presenting cell, Skin, General Veterinary, General Immunology and Microbiology, biology, Chemistry, Lasers, Public Health, Environmental and Occupational Health, Cell biology, Ovalbumin, Infectious Diseases, medicine.anatomical_structure, Langerhans Cells, biology.protein, Molecular Medicine, Immunization, Adjuvant

Abstract

The skin has been intensely investigated as a target tissue for immunization because it is populated by multiple types of antigen presenting cells. Directly addressing dendritic cells or Langerhans cells in vivo represents an attractive strategy for inducing T cell responses in cancer immunotherapy. We and others have studied fractional laser ablation as a novel method combining efficient delivery of macromolecules to the skin with an inherent adjuvant effect of laser illumination. In this proof of concept study, we demonstrate the feasibility of peptide delivery to the skin using the P.L.E.A.S.E. professional Erb:YAG fractional infrared laser together with EPIMMUN patches. In an ovalbumin mouse model we demonstrate that a dry patch formulation of SIINFEKL peptide in combination with CpG-ODN1826, but not imiquimod or polyI:C, induces potent cytotoxic T cell responses, which can be further boosted by co-delivery of the pan-helper T cell epitope PADRE.

Published

2021

2. Laser-facilitated epicutaneous immunization of mice with SARS-CoV-2 spike protein induces antibodies inhibiting spike/ACE2 binding

Author

Stephan Drothler, Maximilian Boesch, Richard Weiss, Reinhard Braun, Werner Braun, and Sandra Scheiblhofer

Subjects

COVID-19 Vaccines, medicine.medical_treatment, Protein subunit, Short Communication, 030231 tropical medicine, Laser, Enterotoxin, Plasma protein binding, Spike protein, Peptidyl-Dipeptidase A, Antibodies, Viral, law.invention, 03 medical and health sciences, Mice, 0302 clinical medicine, law, medicine, Animals, Humans, 030212 general & internal medicine, Receptor, Skin micropores, Mice, Inbred BALB C, Epicutaneous immunization, General Veterinary, General Immunology and Microbiology, biology, Chemistry, SARS-CoV-2, Lasers, Vaccination, Public Health, Environmental and Occupational Health, COVID-19, Molecular biology, Infectious Diseases, Immunization, Spike Glycoprotein, Coronavirus, biology.protein, Recombinant DNA, Molecular Medicine, Antibody, Adjuvant, Protein Binding

Abstract

The skin represents an attractive target tissue for vaccination against respiratory viruses such as SARS-CoV-2. Laser-facilitated epicutaneous immunization (EPI) has been established as a novel technology to overcome the skin barrier, which combines efficient delivery via micropores with an inherent adjuvant effect due to the release of danger-associated molecular patterns. Here we delivered the S1 subunit of the Spike protein of SARS-CoV-2 to the skin of BALB/c mice via laser-generated micropores with or without CpG-ODN1826 or the B subunit of heat-labile enterotoxin of E.coli (LT-B). EPI induced serum IgG titers of 1:3200 that could be boosted 5 to 10-fold by co-administration of LT-B and CpG, respectively. Sera were able to inhibit binding of the spike protein to its receptor ACE2. Our data indicate that delivery of recombinant spike protein via the skin may represent an alternative route for vaccines against Covid-19.

Published

2021

3. Systemic Immune Profile Predicts the Development of Infections in Patients with Spinal Cord Injuries

Author

Lukas Grassner, Barbara Klein, Daniel Garcia-Ovejero, Orpheus Mach, Sandra Scheiblhofer, Richard Weiss, Eduardo Vargas-Baquero, John L.K. Kramer, Iris Leister, Eva Rohde, Michaela Oeller, Eduardo Molina-Holgado, Christoph J. Griessenauer, Doris Maier, Ludwig Aigner, and Angel Arevalo-Martin

Subjects

Vascular Endothelial Growth Factor A, Eosinophils, Spinal Cord, Quality of Life, Humans, Neurology (clinical), Recovery of Function, Spinal Cord Injuries

Abstract

Patients with spinal cord injury (SCI) frequently develop infections that may affect quality of life, be life-threatening, and impair their neurological recovery in the acute and subacute injury phases. Therefore, identifying patients with SCI at risk for developing infections in this stage is of utmost importance. We determined the systemic levels of immune cell populations, cytokines, chemokines, and growth factors in 81 patients with traumatic SCI at 4 weeks after injury and compared them with those of 26 age-matched healthy control subjects. Patients who developed infections between 4 and 16 weeks after injury exhibited higher numbers of neutrophils and eosinophils, as well as lower numbers of lymphocytes and eotaxin-1 (CCL11) levels. Accordingly, lasso logistic regression showed that incomplete lesions (American Spinal Injury Association Impairment Scale [AIS] C and D grades), the levels of eotaxin-1, and the number of lymphocytes, basophils, and monocytes are predictive of lower odds for infections. On the other hand, the number of neutrophils and eosinophils as well as, in a lesser extent, the levels of IP-10 (CXCL10), MCP-1 (CCL2), BDNF [brain-derived neurotrophic factor], and vascular endothelial growth factor [VEGF]-A, are predictors of increased susceptibility for developing infections. Overall, our results point to systemic immune disbalance after SCI as predictors of infection in a period when infections may greatly interfere with neurological and functional recovery and suggest new pathways and players to further explore novel therapeutic strategies.

Published

2022

4. A Novel C-Type Lectin Receptor-Targeted α-Synuclein-Based Parkinson Vaccine Induces Potent Immune Responses and Therapeutic Efficacy in Mice

Author

Sabine Schmidhuber, Sandra Scheiblhofer, Richard Weiss, Mihály Cserepes, József Tóvári, Gabriele Gadermaier, Erwan Bezard, Francesca De Giorgi, François Ichas, Dirk Strunk, and Markus Mandler

Subjects

Pharmacology, Infectious Diseases, Drug Discovery, Immunology, Pharmacology (medical), Parkinson’s disease, vaccine, vaccination strategy, α-synuclein, public health, cost effectiveness

Abstract

The progressive accumulation of misfolded α-synuclein (α-syn) in the brain is widely considered to be causal for the debilitating clinical manifestations of synucleinopathies including, most notably, Parkinson’s disease (PD). Immunotherapies, both active and passive, against α-syn have been developed and are promising novel treatment strategies for such disorders. To increase the potency and specificity of PD vaccination, we created the ‘Win the Skin Immune System Trick’ (WISIT) vaccine platform designed to target skin-resident dendritic cells, inducing superior B and T cell responses. Of the six tested WISIT candidates, all elicited higher immune responses compared to conventional, aluminum adjuvanted peptide-carrier conjugate PD vaccines, in BALB/c mice. WISIT-induced antibodies displayed higher selectivity for α-syn aggregates than those induced by conventional vaccines. Additionally, antibodies induced by two selected candidates were shown to inhibit α-syn aggregation in a dose-dependent manner in vitro. To determine if α-syn fibril formation could also be inhibited in vivo, WISIT candidate type 1 (CW-type 1) was tested in an established synucleinopathy seeding model and demonstrated reduced propagation of synucleinopathy in vivo. Our studies provide proof-of-concept for the efficacy of the WISIT vaccine technology platform and support further preclinical and clinical development of this vaccine candidate.

Published

2022

5. Laser-facilitated epicutaneous immunization with SARS-CoV-2 spike protein induces ACE2 blocking antibodies in mice

Author

Sandra Scheiblhofer, Werner Braun, Stephan Drother, Reinhard Braun, Maximilian Boesch, and Richard Weiss

Subjects

Chemistry, Protein subunit, medicine.medical_treatment, Enterotoxin, Virology, law.invention, Vaccination, Immunization, law, Blocking antibody, medicine, Recombinant DNA, Receptor, Adjuvant

Abstract

The skin represents an attractive target tissue for vaccination against respiratory viruses such as SARS-CoV-2. Laser-facilitated epicutaneous immunization (EPI) has been established as a novel technology to overcome the skin barrier, which combines efficient delivery via micropores with an inherent adjuvant effect due to the release of danger-associated molecular patterns. Here we delivered the S1 subunit of the Spike protein of SARS-CoV-2 to the skin of BALB/c mice via laser-generated micropores with or without CpG-ODN1826 or the B subunit of heat-labile enterotoxin of E.coli (LT-B). EPI induced serum IgG titers of 1:3200 that could be boosted 5 to 10-fold by co-administration of LT-B and CpG, respectively. Sera were able to inhibit binding of the spike protein to its receptor ACE2. Our data indicate that delivery of recombinant spike protein via the skin may represent an alternative route for vaccines against Covid-19.

Published

2021

6. Functionalized multifunctional nanovaccine for targeting dendritic cells and modulation of immune response

Author

Marc Schneider, Sandra Scheiblhofer, Evgeniia Korotchenko, Nesma El-Sayed, and Richard Weiss

Subjects

inorganic chemicals, Ovalbumin, T cell, Pharmaceutical Science, 02 engineering and technology, 030226 pharmacology & pharmacy, 03 medical and health sciences, Mice, 0302 clinical medicine, Immune system, Antigen, mental disorders, medicine, Cytotoxic T cell, Animals, Antigens, health care economics and organizations, CD86, CD40, biology, Chemistry, technology, industry, and agriculture, Immunity, Dendritic cell, Dendritic Cells, respiratory system, 021001 nanoscience & nanotechnology, Cell biology, Mice, Inbred C57BL, medicine.anatomical_structure, biology.protein, Nanoparticles, 0210 nano-technology, CD80

Abstract

Multifunctional gelatin nanoparticles modified by NIR-emitting gold/silver alloy nanoclusters and loaded with ovalbumin (OVA) as a model antigen were developed. Two different designs of nanoparticles were introduced; positively charged NPs with OVA displayed over the surface (S-NPs) versus OVA encapsulated in the NPs’ matrix and the surface is functionalized by dextran (Dex-NPs) for dendritic cell targeting. The nanoparticles showed average particle sizes of 210 and 305 nm and zeta potentials of +25.6 and −23.9 mV, for S-NPs and Dex-NPs, respectively. Both types of NPs succeeded to induce maturation of murine bone marrow-derived dendritic cells (BMDCs) as indicated by the upregulated surface expression of MHC-II and co-stimulatory molecules CD86, CD80 and CD40. Dex-NPs induced no cytotoxicity in BMDCs, in contrast to S-NPs. Functionalization of NPs with dextran increased their uptake by BMDCs, enhanced secretion of immune stimulatory chemokines, and boosted their T cell stimulation capacity. Co-culture of NP loaded BMDCs with OVA-specific CD4 or CD8 T cells, induced enhanced T cell proliferation and release of IL-2 from both CD8 and CD4 cells and IFN-γ from CD8 T cells. This highlights the potential of the developed NPs as vaccines for inducing T helper 1 type CD4 as well as CD8 responses, such as vaccines for cancer or viral infections.

Published

2020

7. In silico design of Phl p 6 variants with altered folding stability significantly impacts antigen processing, immunogenicity and immune polarization

Author

Florian Hofer, Sara Michelini, Stefan Stubenvoll, Lisa Strasser, Isabella Anna Joubert, Weiss Richard, Jutta Horejs-Hoeck, Sandra Scheiblhofer, Petra Winter, Martin Tollinger, Christian G. Huber, Josef Laimer, Anna S. Kamenik, Johann Brandstetter, Peter Lackner, Soh Wai Tuck, Klaus R. Liedl, Valentin Dietrich, and Carolin Briganser

Subjects

0303 health sciences, Proteases, Chemistry, Antigen processing, Immunogenicity, T cell, Mutant, Epitope, Cell biology, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Immune system, Mutant protein, medicine, 030304 developmental biology, 030215 immunology

Abstract

AbstactIntroductionProtein fold stability has been proposed to represent an intrinsic feature contributing to immunogenicity and immune polarization by influencing the amount of peptide-MHC II complexes (pMHCII). Using in silico prediction, we introduced point mutations in proteins that either increase or decrease their fold-stability without altering immunodominant epitopes or changing the overall structure of the protein. Here, we investigated how modulation of the fold-stability of the grass pollen allergen Phl p 6 affects its ability to stimulate immune responses and T cell polarization.MethodsUsing the MAESTRO software tool, stabilizing or destabilizing mutations were selected and verified by molecular dynamics simulations. The mutants were expressed in E. coli, purified tag-free, and analyzed for thermal stability and resistance to endolysosomal proteases. The resulting peptides were analysed by degradome assay and mass spectrometry. The structure of the most stable mutant protein was obtained by X-ray crystallography. We evaluated the capacity of the mutants to stimulate T cell proliferation in vitro, as well as antibody responses and T cell polarization in vivo in an adjuvant-free BALB/c mouse model.ResultsFour stabilizing and two destabilizing mutations were identified by MAESTRO. Experimentally determined changes in thermal stability compared to the wild type protein ranged from -5 to +14 °C. Destabilization led to faster proteolytic processing in vitro, whereas highly stabilized mutants were degraded very slowly. However, the overall pattern of identified peptides remained very similar. This was confirmed in bone marrow derived dendritic cells that processed and presented the immune dominant epitope from a destabilized mutant more efficiently. In vivo, stabilization resulted in a shift in immune polarization as indicated by higher levels of IgG2a and increased secretion of TH1/TH17 cytokines.ConclusionMAESTRO was very efficient in detecting single point mutations that increase or reduce fold-stability. Thermal stability correlated well with susceptibility to protease resistance and presentation of pMHCII on the surface of dendritic cells in vitro. This change in processing kinetics significantly influenced the polarization of T cell responses in vivo. Modulating the fold-stability of proteins thus has the potential to optimize and polarize immune responses, which opens the door to more efficient design of molecular vaccines.

Published

2020

8. Effect of structural stability on endolysosomal degradation and T-cell reactivity of major shrimp allergen tropomyosin

Author

Swati Iyer, Sandra Scheiblhofer, Yoan Machado, Sandip D. Kamath, Christopher M. Johnson, Richard Weiss, Isabella Anna Joubert, Thomas McLean, Heidi Hofer, Peter Briza, Andreas L. Lopata, Paul A. Ramsland, Jennifer M. Rolland, Fatima Ferreira, Michael Wallner, Robyn E O'Hehir, Aya C Taki, and Josef Thalhamer

Subjects

0301 basic medicine, shrimp allergy, T-Lymphocytes, Immunology, Peptide, Tropomyosin, Cross Reactions, Immunoglobulin E, medicine.disease_cause, Cross-reactivity, Epitope, Food Allergy and Gastrointestinal Disease, endolysosomal degradation, 03 medical and health sciences, Mice, 0302 clinical medicine, Allergen, biology.animal, medicine, Immunology and Allergy, Animals, Peptide sequence, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Cockroach, biology, Chemistry, Proteolytic enzymes, Protein primary structure, T cell, Allergens, cross‐reactivity, 030104 developmental biology, 030228 respiratory system, Biochemistry, biology.protein, Original Article, Antibody, ORIGINAL ARTICLES, Function (biology)

Abstract

Background Tropomyosins are highly conserved proteins, an attribute that forms the molecular basis for their IgE antibody cross‐reactivity. Despite sequence similarities, their allergenicity varies greatly between ingested and inhaled invertebrate sources. In this study, we investigated the relationship between the structural stability of different tropomyosins, their endolysosomal degradation patterns, and T‐cell reactivity. Methods We investigated the differences between four tropomyosins—the major shrimp allergen Pen m 1 and the minor allergens Der p 10 (dust mite), Bla g 7 (cockroach), and Ani s 3 (fish parasite)—in terms of IgE binding, structural stability, endolysosomal degradation and subsequent peptide generation, and T‐cell cross‐reactivity in a BALB/c murine model. Results Tropomyosins displayed different melting temperatures, which did not correlate with amino acid sequence similarities. Endolysosomal degradation experiments demonstrated differential proteolytic digestion, as a function of thermal stability, generating different peptide repertoires. Pen m 1 (Tm 42°C) and Der p 10 (Tm 44°C) elicited similar patterns of endolysosomal degradation, but not Bla g 7 (Tm 63°C) or Ani s 3 (Tm 33°C). Pen m 1–specific T‐cell clones, with specificity for regions highly conserved in all four tropomyosins, proliferated weakly to Der p 10, but did not proliferate to Bla g 7 and Ani s 3, indicating lack of T‐cell epitope cross‐reactivity. Conclusions Tropomyosin T‐cell cross‐reactivity, unlike IgE cross‐reactivity, is dependent on structural stability rather than amino acid sequence similarity. These findings contribute to our understanding of cross‐sensitization among different invertebrates and design of suitable T‐cell peptide‐based immunotherapies for shrimp and related allergies., Allergenic tropomyosins have dissimilar structural stabilities despite having high amino acid sequence similarity. Tropomyosins are differentially degraded in the endolysosomal compartment of antigen‐presenting cells due to differences in their structural stability. Tropomyosin T‐cell cross‐reactivity, unlike IgE antibody cross‐reactivity, is dependent on structural stability rather than amino acid sequence similarity.

Published

2020

9. Laser-facilitated epicutaneous immunotherapy with hypoallergenic beta-glucan neoglycoconjugates suppresses lung inflammation and avoids local side effects in a mouse model of allergic asthma

Author

Stephan M. Winkler, Victoria Schiessl, Isabella Anna Joubert, David Joedicke, Helen Strandt, Muamera Sarajlic, Renate Bauer, Sabrina Wildner, Susanne Schaller, Theresa Neuper, Evgeniia Korotchenko, Gabriele Gadermaier, Jutta Horejs-Hoeck, Sandra Scheiblhofer, Mark Geppert, and Richard Weiss

Subjects

0303 health sciences, biology, Side effect, Chemistry, Immunogenicity, medicine.medical_treatment, Inflammation, Immunotherapy, respiratory system, Immunoglobulin E, 3. Good health, 03 medical and health sciences, Ovalbumin, 0302 clinical medicine, Immunology, biology.protein, medicine, medicine.symptom, Antigen-presenting cell, Adjuvant, 030304 developmental biology, 030215 immunology

Abstract

BackgroundAllergen-specific immunotherapy via the skin targets an area rich in antigen presenting cells, but can be associated with local and systemic side effect. Allergen-polysaccharide neoglycogonjugates can increase immunization efficacy by targeting and activating dendritic cells via C-type lectin receptors and reduce side effects.ObjectiveWe investigated the immunogenicity, allergenicity and therapeutic efficacy of laminarin-ovalbumin neoglycoconjugates (LamOVA).MethodsThe biological activity of LamOVA was characterizedin vitrousing bone marrow derived dendritic cells. Immunogenicity and therapeutic efficacy was analyzed in BALB/c mice. Epicutaneous immunotherapy (EPIT) was performed using fractional infrared laser ablation to generate micropores in the skin and the effects of LamOVA on blocking IgG, IgE, cellular composition of BAL, lung, and spleen, lung function, and T cell polarization was assessed.ResultsConjugation of laminarin to ovalbumin reduced its IgE binding capacity 5-fold and increased its immunogenitiy 3-fold in terms of IgG generation. EPIT with LamOVA induced significantly higher IgG levels than OVA, matching the levels induced by s.c. injection of OVA/alum (SCIT). EPIT was equally effective as SCIT in terms of blocking IgG induction and suppression of lung inflammation and airway hyperresponsiveness, but SCIT was associated with a higher level of therapy induced IgE and TH2 cytokines. EPIT with LamOVA induced significantly lower local skin reactions during therapy compared to unconjugated OVA.ConclusionConjugation of the allergen to laminarin increased its immunogenicity while at the same time reducing local side effects. LamOVA EPIT via laser generated micropores is safe and equally effective to SCIT with alum, without the need for adjuvant.

Published

2020

10. DNA and mRNA vaccination against allergies

Author

Richard Weiss, Josef Thalhamer, and Sandra Scheiblhofer

Subjects

0301 basic medicine, Allergy, medicine.medical_treatment, Immunology, Priming (immunology), healthy responses, Review Article, medicine.disease_cause, DNA vaccines, 03 medical and health sciences, Subcutaneous injection, 0302 clinical medicine, Allergen, natural protection, prevention, Immunity, Hypersensitivity, Vaccines, DNA, Immunology and Allergy, Medicine, Animals, Humans, RNA, Messenger, Review Articles, Messenger RNA, therapy, business.industry, Vaccination, Immunotherapy, Allergens, medicine.disease, allergy, 3. Good health, mRNA vaccines, 030104 developmental biology, Desensitization, Immunologic, Pediatrics, Perinatology and Child Health, business, 030215 immunology, genetic vaccines

Abstract

Allergen‐specific immunotherapy, which is performed by subcutaneous injection or sublingual application of allergen extracts, represents an effective treatment against type I allergic diseases. However, due to the long duration and adverse reactions, only a minority of patients decides to undergo this treatment. Alternatively, early prophylactic intervention in young children has been proposed to stop the increase in patient numbers. Plasmid DNA and mRNA vaccines encoding allergens have been shown to induce T helper 1 as well as T regulatory responses, which modulate or counteract allergic T helper 2–biased reactions. With regard to prophylactic immunization, additional safety measurements are required. In contrast to crude extracts, genetic vaccines provide the allergen at high purity. Moreover, by targeting the encoded allergen to subcellular compartments for degradation, release of native allergen can be avoided. Due to inherent safety features, mRNA vaccines could be the candidates of choice for preventive allergy immunizations. The subtle priming of T helper 1 immunity induced by this vaccine type closely resembles responses of non‐allergic individuals and—by boosting via natural allergen exposure—could suffice for long‐term protection from type I allergy.

Published

2018

11. Mast cells and γδ T cells are largely dispensable for adaptive immune responses after laser-mediated epicutaneous immunization

Author

Evgeniia Korotchenko, Daniel Kovacs, Helen Strandt, Richard Weiss, Petra Winter, Isabella Anna Joubert, and Sandra Scheiblhofer

Subjects

Chemokine, Injections, Intradermal, medicine.medical_treatment, T cell, 030231 tropical medicine, Adaptive Immunity, Immunoglobulin E, 03 medical and health sciences, Mice, 0302 clinical medicine, Immune system, T-Lymphocyte Subsets, medicine, Animals, 030212 general & internal medicine, Mast Cells, Mice, Knockout, Mice, Inbred BALB C, Innate immune system, General Veterinary, General Immunology and Microbiology, biology, Chemistry, Lasers, Public Health, Environmental and Occupational Health, Receptors, Antigen, T-Cell, gamma-delta, Acquired immune system, Molecular biology, Infectious Diseases, Cytokine, medicine.anatomical_structure, Immunization, Immunology, Knockout mouse, biology.protein, Molecular Medicine, Cytokines, Chemokines

Abstract

BackgroundThe skin resembles an attractive target for vaccination due to its accessibility and abundance of resident immune cells. Cells like γδ T cells and mast cells (MCs) are part of the first line of defence against exogenous threats. Despite being important mediators for eliciting TH2 immune responses after epithelial stress, γδ T cell and MC function still remains to be completely understood. Here, we aimed to characterize their roles in shaping adaptive immune responses after laser-mediated epicutaneous immunization (EPI).Methodsγδ T cell knock out, MC depleted, and wildtype control mice were immunized with mannan-conjugated grass pollen allergen Phl p 5 (P5-MN) by laser-mediated EPI. After 2-3 immunizations, cytokine expression, T helper polarization, and antigen-specific IgG1/IgE levels were analysed. The local cytokine/chemokine milieu after laser microporation was determined.ResultsWhile the majority of inflammatory chemokines and cytokines induced by laser treatment was not affected by the presence of γδ T cells or MCs, RANTES, was elevated in γδ T cell knock out mice, and GROα and TSLP, were significantly decreased after MC depletion. However, absence of γδ T cells or depletion of MC had no substantial effect on adaptive humoral or cellular immune responses after laser-mediated EPI, except for slightly reduced IgG1 and effector T cell levels in MC depleted mice.Conclusionsγδ T cells did not play a pivotal role in shaping the humoral and cellular adaptive immune response after laser-mediated EPI, whereas MC depletion decreased numbers of effector T cells, indicating a potential role of MCs in the activation and maturation of T cells after EPI.HighlightsLaser microporation induces an inflammatory chemokine milieu at the site of immunizationγδ T cells and mast cells contribute to the steady-state or damage-induced cytokine milieu in the skinγδ T cells and mast cells are dispensable for adaptive immunity after laser-mediated immunization

Published

2019

12. Laser-facilitated epicutaneous immunotherapy with depigmented house dust mite extract alleviates allergic responses in a mouse model of allergic lung inflammation

Author

Isabella Anna Joubert, Jutta Horejs-Hoeck, Jerónimo Carnés, Raquel Moya, Michael Hauser, Sandra Scheiblhofer, Evgeniia Korotchenko, Richard Weiss, David Calzada, and Victor Iraola

Subjects

0301 basic medicine, Allergy, epicutaneous immunotherapy, medicine.medical_treatment, Immunology, skin immunization, Basophil, 03 medical and health sciences, Subcutaneous injection, Mice, 0302 clinical medicine, medicine, Hypersensitivity, Immunology and Allergy, Animals, Antigens, Dermatophagoides, house dust mite, House dust mite, biology, medicine.diagnostic_test, business.industry, Lasers, Pyroglyphidae, Immunotherapy, Allergens, medicine.disease, biology.organism_classification, depigmented extract, laser, Basophil activation, 030104 developmental biology, Bronchoalveolar lavage, medicine.anatomical_structure, 030228 respiratory system, Desensitization, Immunologic, Cytokine secretion, business

Abstract

BACKGROUND Skin-based immunotherapy of type 1 allergies has recently been re-investigated as an alternative for subcutaneous injections. In the current study, we employed a mouse model of house dust mite (HDM)-induced lung inflammation to explore the potential of laser-facilitated epicutaneous allergen-specific treatment. METHODS Mice were sensitized against native Dermatophagoides pteronyssinus extract and repeatedly treated by application of depigmented D pteronyssinus extract via laser-generated skin micropores or by subcutaneous injection with or without alum. Following aerosol challenges, lung function was determined by whole-body plethysmography and bronchoalveolar lavage fluid was analyzed for cellular composition and cytokine levels. HDM-specific IgG subclass antibodies were determined by ELISA. Serum as well as cell-bound IgE was measured by ELISA, rat basophil leukemia cell assay, and ex vivo using a basophil activation test, respectively. Cultured lymphocytes were analyzed for cytokine secretion profiles and cellular polarization by flow cytometry. RESULTS Immunization of mice by subcutaneous injection or epicutaneous laser microporation induced comparable IgG antibody levels, but the latter preferentially induced regulatory T cells and in general downregulated T cell cytokine production. This effect was found to be a result of the laser treatment itself, independent from extract application. Epicutaneous treatment of sensitized animals led to induction of blocking IgG, and improvement of lung function, superior compared to the effects of subcutaneous therapy. During the whole therapy schedule, no local or systemic side effects occurred. CONCLUSION Allergen-specific immunotherapy with depigmented HDM extract via laser-generated skin micropores offers a safe and effective treatment option for HDM-induced allergy and lung inflammation.

Published

2019

13. Potential of nanoparticles for allergen-specific immunotherapy – use of silica nanoparticles as vaccination platform

Author

Yoan Machado, Josef Thalhamer, Andrea Feinle, Richard Weiss, Nicola Hüsing, and Sandra Scheiblhofer

Subjects

0301 basic medicine, medicine.medical_treatment, Pharmaceutical Science, Silica nanoparticles, 03 medical and health sciences, Adjuvants, Immunologic, Hypersensitivity, medicine, Humans, Patient compliance, Vaccines, business.industry, Vaccination, Specific immunotherapy, Hypoallergenic, Immunotherapy, Allergens, Silicon Dioxide, 030104 developmental biology, Immunization, Desensitization, Immunologic, Immunology, Nanoparticles, Delivery system, business

Abstract

Allergen-specific immunotherapy is the only curative approach for the treatment of allergies. There is an urgent need for improved therapies, which increase both, efficacy and patient compliance. Novel routes of immunization and the use of more advanced vaccine platforms have gained heightened interest in this field. Areas covered: The current status of allergen-specific immunotherapy is summarized and novel routes of immunization and their challenges in the clinics are critically discussed. The use of nanoparticles as novel delivery system for allergy vaccines is comprehensively reviewed. Specifically, the advantages of silica nanoparticles as vaccine carriers and adjuvants are summarized. Expert opinion: Future allergen-specific immunotherapy will combine engineered hypoallergenic vaccines with novel routes of administration, such as the skin. Due to their biodegradability, and the easiness to introduce surface modifications, silica nanoparticles are promising candidates for tailor-made vaccines. By covalently linking allergens and polysaccharides to silica nanoparticles, a versatile vaccination platform can be designed to specifically target antigen-presenting cells, render the formulation hypoallergenic, and introduce immunomodulatory functions. Combining potent skin vaccination methods, such as fractional laser ablation, with nanoparticle-based vaccines addresses all the requirements for safe and efficient therapy of allergic diseases.

Published

2016

14. Efficacy of Laser Facilitated Epicutaneous Immunotherapy with Dermatophagoides pteronyssinus Depigmented Extract in a Mouse Model of Allergy

Author

Victor Iraola, Richard Weiss, Sandra Scheiblhofer, Evgeniia Korotchenko, Jerónimo Carnés, David Calzada, and Raquel Moya Lobo

Subjects

Allergy, business.industry, medicine.medical_treatment, Immunology, medicine, Immunology and Allergy, Immunotherapy, medicine.disease, business

Published

2020

15. Context matters: T(H)2 polarization resulting from pollen composition and not from protein-intrinsic allergenicity

Author

Sara Huber, Peter Briza, Marie M. Amisi, Sandra Scheiblhofer, Stefanie Gilles, Lorenz Aglas, Renate Bauer, Jutta Horejs-Hoeck, Geoffrey A. Mueller, Barbara Bohle, Fatima Ferreira, Hieu-Hoa Dang, Claudia Traidl-Hoffmann, and Galber R. Araujo

Subjects

0301 basic medicine, Allergy, Immunology, Antigen-Presenting Cells, Context (language use), Mice, Transgenic, medicine.disease_cause, Article, Allergic sensitization, 03 medical and health sciences, 0302 clinical medicine, Allergen, Th2 Cells, Antigen, Pollen, medicine, otorhinolaryngologic diseases, Immunology and Allergy, Animals, Humans, ddc:610, Sensitization, Plant Proteins, Chemistry, food and beverages, Allergens, Antigens, Plant, medicine.disease, In vitro, ddc, Cell biology, Mice, Inbred C57BL, 030104 developmental biology, medicine.anatomical_structure, Cytokines, Female, Allergic Sensitization, Bet V 1, Lps, Tlr4, Th2 Polarization, Allergenicity, Allergy Prophylaxis, Birch Pollen, Pollen Extract, 030215 immunology

Abstract

Background Over 100 million people worldwide suffer from birch pollen allergy. However, identification of molecular determinants driving Th2-biased allergic sensitization to Bet v 1, the major birch pollen allergen, remains elusive. Objective Here, we examined whether Bet v 1 or the pollen matrix is responsible for activation of antigen-presenting cells and the subsequent Th2 polarization, relevant in the process of allergic sensitization. Methods The allergenicity of Bet v 1 and of birch pollen extract (BPE) was addressed by stimulation of murine and human dendritic cells and by in vivo monitoring of Th2 polarization. Further, Bet v 1 was depleted from BPE by immunoprecipitation in order to analyze its involvement in the occurrence of a Th2 response. Results The allergen alone did neither stimulate dendritic cells in vitro nor induced Th2 polarization in vivo, even in the presence of the natural LPS concentration determined in the BPE. In contrast, BPE was shown to activate dendritic cells and strongly promoted a Th2 polarization. Even upon immunization with Bet v 1-depleted BPE the amount of induced Th2 cells remained unaltered. Conclusion This finding indicates that the Th2-polarizing potential of BPE is Bet v 1 independent; therefore, sensitization to Bet v 1 is induced by an as-yet-undetermined pollen compound or mechanism in the pollen environment. These data suggest that sensitization is not exclusively linked to the intrinsic properties of individual proteins. These findings are relevant in understanding allergic sensitization towards pollen allergens and might pave the way for future prophylactic approaches.

Published

2018

16. Synergistic effects of dendritic cell targeting and laser-microporation on enhancing epicutaneous skin vaccination efficacy

Author

Michael Ablinger, Yoan Machado, Verena Wally, Sarah Hochmann, Isabel Pablos, Uwe Ritter, Sandra Scheiblhofer, Veronika Hoepflinger, Evgeniia Korotchenko, Melissa Mayr, Dirk Strunk, Almedina Kurtaj, Josef Thalhamer, Richard Weiss, Anna M. Raninger, Yvette van Kooyk, Markus Steiner, Angelika Stoecklinger, Joyce Lübbers, Maximillian Schmid, Sanne Duinkerken, Molecular cell biology and Immunology, CCA - Cancer biology and immunology, AII - Inflammatory diseases, AGEM - Re-generation and cancer of the digestive system, AGEM - Digestive immunity, and Amsterdam Neuroscience - Neuroinfection & -inflammation

Subjects

0301 basic medicine, medicine.medical_treatment, CD14, Pharmaceutical Science, Human skin, chemical and pharmacologic phenomena, Administration, Cutaneous, Mannans, 03 medical and health sciences, Immune system, Antigen, medicine, Animals, Humans, Intradermal injection, Complement Activation, Mannan, Skin, Mice, Inbred BALB C, Chemistry, Lasers, Vaccination, hemic and immune systems, Dendritic cell, Immunotherapy, Dendritic Cells, Allergens, Antigens, Plant, Immunoglobulin E, Th1 Cells, 030104 developmental biology, Immunology, Th17 Cells, Female, Porosity

Abstract

Due to its unique immunological properties, the skin is an attractive target tissue for allergen-specific immunotherapy. In our current work, we combined a dendritic cell targeting approach with epicutaneous immunization using an ablative fractional laser to generate defined micropores in the upper layers of the skin. By coupling the major birch pollen allergen Bet v 1 to mannan from S. cerevisiae via mild periodate oxidation we generated hypoallergenic Bet-mannan neoglycoconjugates, which efficiently targeted CD14+ dendritic cells and Langerhans cells in human skin explants. Mannan conjugation resulted in sustained release from the skin and retention in secondary lymphoid organs, whereas unconjugated antigen showed fast renal clearance. In a mouse model, Bet-mannan neoglycoconjugates applied via laser-microporated skin synergistically elicited potent humoral and cellular immune responses, superior to intradermal injection. The induced antibody responses displayed IgE-blocking capacity, highlighting the therapeutic potential of the approach. Moreover, application via micropores, but not by intradermal injection, resulted in a mixed TH1/TH17-biased immune response. Our data clearly show that applying mannan-neoglycoconjugates to an organ rich in dendritic cells using laser-microporation is superior to intradermal injection. Due to their low IgE binding capacity and biodegradability, mannan neoglycoconjugates therefore represent an attractive formulation for allergen-specific epicutaneous immunotherapy.

Published

2017

17. Influence of protein fold stability on immunogenicity and its implications for vaccine design

Author

Sandra, Scheiblhofer, Josef, Laimer, Yoan, Machado, Richard, Weiss, and Josef, Thalhamer

Subjects

Protein Folding, Vaccines, conformational stability, recombinant vaccines, Review, immunogenicity, Recombinant Proteins, stabilization, Disease Models, Animal, Drug Stability, destabilization, Drug Design, Protein stability, Animals, Humans, processing, Antigens, fold stability, protein variants

Abstract

Introduction: In modern vaccinology and immunotherapy, recombinant proteins more and more replace whole organisms to induce protective or curative immune responses. Structural stability of proteins is of crucial importance for efficient presentation of antigenic peptides on MHC, which plays a decisive role for triggering strong immune reactions. Areas covered: In this review, we discuss structural stability as a key factor for modulating the potency of recombinant vaccines and its importance for antigen proteolysis, presentation, and stimulation of B and T cells. Moreover, the impact of fold stability on downstream events determining the differentiation of T cells into effector cells is reviewed. We summarize studies investigating the impact of protein fold stability on the outcome of the immune response and provide an overview on computational methods to estimate the effects of point mutations on protein stability. Expert commentary: Based on this information, the rational design of up-to-date vaccines is discussed. A model for predicting immunogenicity of proteins based on their conformational stability at different pH values is proposed.

Published

2017

18. A novel vaccination platform for epicutaneous allergen-specific immunotherapy based on beta-glucan neoglycoconjugates

Author

Evgeniia Korotchenko, Yoan Machado, Helen Strandt, Isabella Joubert, Viktoria Schiessl, Renate Bauer, Muamera Sarajlic, Theresa Neuper, Sabrina Wildner, Utta Horejs-Hoeck, Gabriele Gadermaier, Sandra Scheiblhofer, Josef Thalhamer, and Richard Weiss

Subjects

Immunology, Immunology and Allergy

Abstract

Coupling of long chain carbohydrates to allergens can mask IgE epitopes and thus reduce the allergenicity of the neoglycoconjugates. The resulting molecules can target and activate dendritic cells via C-type lectin receptors. Neoglycoconjugates therefore have a high potential for epicutaneous immunotherapy (EPIT) by delivering a hypoallergenic vaccine to a tissue rich in dendritic cells. In the current study we test the therapeutic efficiency of the beta-glucan laminarin conjugated to ovalbumin (LamOVA) in a mouse model of allergic asthma. Sensitized Balb/C mice were treated epicutaneously via micropores created by fractional laser ablation. Humoral and cellular responses were evaluated by ELISA, RBL assay and BAT. Lung function was analyzed by whole body plethysmography. Laminarin remained biologically active after coupling to ovalbumin as indicated by binding to Dectin-1 receptor. IgE epitopes were successfully masked according to in vitro IgE binding aasay and skin reaction scores in therapeutic setup.LamOVA was more potent in stimulating humoral immune responses in comparison to OVA and induced the highest IgG1 and IgG2a production. Epicutaneous treatment with OVA and LamOVA reduced lung inflammation and improved lung function of sensitized mice more efficiently compared to s.c. injection with OVA/alum. Epicutaneous immunotherapy can alleviate lung inflammation and reduce airway hyperresponsiveness in sensitized mice more efficiently than s.c. injection with alum. Coupling of allergen to laminarin reduces local side effects and increases the immunogenicity, resulting in a safer therapy.

Published

2019

19. Generation and Evaluation of Prophylactic mRNA Vaccines Against Allergy

Author

Richard, Weiss, Sandra, Scheiblhofer, and Josef, Thalhamer

Subjects

Mice, Mice, Inbred BALB C, Vaccines, Vaccination, Hypersensitivity, Vaccines, DNA, Animals, Female, RNA, Messenger, Allergens, Cell Line, Rats

Abstract

Due to the worldwide increase in allergies and a limited efficacy of therapeutic interventions, the need for prophylactic vaccination against allergies has been recognized. mRNA and DNA vaccines have demonstrated their high potential for preventing allergic sensitization by inducing an immunological bias that prevents TH2 sensitization. However, only mRNA vaccines fulfill the stringent safety requirements for vaccination of healthy children. In this chapter, we describe the generation of conventional as well as self-replicating mRNA vaccines and methods to test their prophylactic efficacy in animal models.

Published

2016

20. Generation and Evaluation of Prophylactic mRNA Vaccines Against Allergy

Author

Josef Thalhamer, Sandra Scheiblhofer, and Richard Weiss

Subjects

0301 basic medicine, Allergy, Messenger RNA, biology, business.industry, Prophylactic vaccination, biology.organism_classification, medicine.disease, DNA vaccination, BALB/c, Allergic sensitization, Vaccination, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Immunology, medicine, business, Sensitization, 030215 immunology

Abstract

Due to the worldwide increase in allergies and a limited efficacy of therapeutic interventions, the need for prophylactic vaccination against allergies has been recognized. mRNA and DNA vaccines have demonstrated their high potential for preventing allergic sensitization by inducing an immunological bias that prevents TH2 sensitization. However, only mRNA vaccines fulfill the stringent safety requirements for vaccination of healthy children. In this chapter, we describe the generation of conventional as well as self-replicating mRNA vaccines and methods to test their prophylactic efficacy in animal models.

Published

2016

21. Allergy Enhances Neurogenesis and Modulates Microglial Activation in the Hippocampus

Author

Josef Thalhamer, Heike Mrowetz, Sandra Scheiblhofer, Ludwig Aigner, Richard Weiss, and Barbara Klein

Subjects

0301 basic medicine, medicine.medical_specialty, hippocampus, TH2 polarization, Hippocampus, Subventricular zone, microglia, Hippocampal formation, Subgranular zone, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Internal medicine, medicine, Original Research, systemic inflammation, biology, Dentate gyrus, Neurogenesis, allergy, Doublecortin, neurogenesis, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, nervous system, Immunology, biology.protein, NeuN, 030217 neurology & neurosurgery, Neuroscience

Abstract

Allergies and their characteristic TH2-polarized inflammatory reactions affect a substantial part of the population. Since there is increasing evidence that the immune system modulates plasticity and function of the central nervous system (CNS), we investigated the effects of allergic lung inflammation on the hippocampus-a region of cellular plasticity in the adult brain. The focus of the present study was on microglia, the resident immune cells of the CNS, and on hippocampal neurogenesis, i.e., the generation of new neurons. C57BL/6 mice were sensitized with a clinically relevant allergen derived from timothy grass pollen (Phl p 5). As expected, allergic sensitization induced high serum levels of allergen-specific immunoglobulins (IgG1 and IgE) and of TH2 cytokines (IL-5 and IL-13). Surprisingly, fewer Iba1(+) microglia were found in the granular layer (GL) and subgranular zone (SGZ) of the hippocampal dentate gyrus and also the number of Iba1(+)MHCII(+) cells was lower, indicating a reduced microglial surveillance and activation in the hippocampus of allergic mice. Neurogenesis was analyzed by labeling of proliferating cells with bromodeoxyuridine (BrdU) and determining their fate 4 weeks later, and by quantitative analysis of young immature neurons, i.e., cells expressing doublecortin (DCX). The number of DCX(+) cells was clearly increased in the allergy animals. Moreover, there were more BrdU(+) cells present in the hippocampus of allergic mice, and these newly born cells had differentiated into neurons as indicated by a higher number of BrdU(+)NeuN(+) cells. In summary, allergy led to a reduced microglia presence and activity and to an elevated level of neurogenesis in the hippocampus. This effect was apparently specific to the hippocampus, as we did not observe these alterations in the subventricular zone (SVZ)/olfactory bulb (OB) system, also a region of high cellular plasticity and adult neurogenesis.

Published

2016

22. Skin vaccination via fractional infrared laser ablation - Optimization of laser-parameters and adjuvantation

Author

Josef Thalhamer, Anna Strobl, Theresa Thalhamer, Martin Steiner, Sandra Scheiblhofer, Veronika Hoepflinger, and Richard Weiss

Subjects

0301 basic medicine, HBsAg, Infrared Rays, medicine.medical_treatment, Monophosphoryl Lipid A, Enzyme-Linked Immunosorbent Assay, Administration, Cutaneous, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, Antigen, Adjuvants, Immunologic, Conjugate vaccine, medicine, Animals, Hepatitis B Vaccines, 030212 general & internal medicine, Hepatitis B Antibodies, Hepatitis B Surface Antigens, General Veterinary, General Immunology and Microbiology, Chemistry, Alum, Immunogenicity, Vaccination, Public Health, Environmental and Occupational Health, Antibody titer, Immunity, Humoral, 030104 developmental biology, Infectious Diseases, Immunology, Antibody Formation, Molecular Medicine, Alum Compounds, Female, Immunization, Laser Therapy, Adjuvant

Abstract

Background Methods to deliver an antigen into the skin in a painless, defined, and reproducible manner are essential for transcutaneous immunization (TCI). Here, we employed an ablative fractional infrared laser (P.L.E.A.S.E. Professional) to introduce clinically relevant vaccines into the skin. To elicit the highest possible antibody titers with this system, we optimized different laser parameters, such as fluence and pore number per area, and tested various adjuvants. Methods BALB/c mice were immunized with Hepatitis B surface antigen (HBsAg) by laser-microporation. Adjuvants used were alum, CRM 197 , monophosphoryl lipid A, heat-labile enterotoxin subunit B of E. coli (LT-B), and CpG ODN1826. The influence of different fluences (2.1 to 16.8 J/cm 2 ) and pore densities (5–15%) was investigated. Furthermore, immunogenicity of HBsAg and the commercially available conjugate vaccines ActHIB® and Menveo® applied via TCI was compared to standard i.m. injection. Antigen-specific antibody titers were assessed by luminometric ELISA. Results Antibody titers against HBsAg were dependent on pore depth and peaked at a fluence of 8.4 J/cm 2 . Immunogenicity was independent of pore density. Adjuvantation with alum significantly reduced antibody titers after TCI, whereas other adjuvants only induced marginal changes in total IgG titers. LT-B and CpG shifted the polarization of the immune response as indicated by decreased IgG1/IgG2a ratios. HBsAg/LT-B applied via TCI induced similar antibody titers compared to i.m. injection of HBsAg/alum. In contrast to i.m. injection, we observed a dose response from 5 to 20 μg after TCI. Both, ActHIB® and Menveo® induced high antibody titers after TCI, which were comparable to i.m. injection. Conclusions Alum, the most commonly used adjuvant, is contraindicated for transcutaneous vaccination via laser-generated micropores. TCI with optimized laser parameters induces high antibody titers, which cannot be significantly increased by the tested adjuvants. Commercially available vaccines formulated without alum have the potential for successful TCI via laser-generated micropores, without the need for reformulation.

Published

2016

23. Transcutaneous immunotherapy via laser‐generated micropores efficiently alleviates allergic asthma in <scp>P</scp> hl p 5–sensitized mice

Author

Richard Weiss, Wolf Dietrich Krautgartner, Cornelia Hauser-Kronberger, S. Kitzmueller, J. Thalhamer, Sandra Scheiblhofer, Christof Boehler, D. Bach, Esther E. Weinberger, and Michael Hessenberger

Subjects

Allergy, Ovalbumin, medicine.medical_treatment, Molecular Sequence Data, Immunology, Administration, Cutaneous, Immunoglobulin E, Mice, 03 medical and health sciences, Subcutaneous injection, Th2 Cells, 0302 clinical medicine, medicine, Animals, Immunology and Allergy, Amino Acid Sequence, Plant Proteins, 030304 developmental biology, Mice, Inbred BALB C, 0303 health sciences, biology, medicine.diagnostic_test, business.industry, Lasers, Original Articles, Immunotherapy, transcutaneous, allergy, medicine.disease, Asthma, laser, 3. Good health, Cellular infiltration, Bronchoalveolar lavage, micropores, 030228 respiratory system, Immunoglobulin G, biology.protein, Female, Cytokine secretion, Nasal administration, immunotherapy, business

Abstract

Background Specific immunotherapy via the subcutaneous or oral route is associated with local and, in some cases, systemic side effects and suffers from low patient compliance. Due to its unique immunological features, the skin represents a promising target tissue for effective and painless treatment of type I allergy. The current study was performed to compare the efficacy of transcutaneous immunotherapy via laser-generated micropores to subcutaneous injection. Methods BALB/c mice were sensitized by intraperitoneal injection of recombinant grass pollen allergen Phl p 5 together with alum. Subsequently, lung inflammation was induced by repeated intranasal challenge. During the treatment phase, adjuvant-free Phl p 5 was applied in solution to microporated skin or was subcutaneously injected. Lung function and cellular infiltration; Phl p 5–specific serum levels of IgG1, IgG2a, and IgE; and cytokine levels in bronchoalveolar lavage fluids as well as in supernatants of splenocyte cultures were assessed. Results Both therapeutic approaches reduced airway hyperresponsiveness and leukocyte infiltration into the lungs. Whereas subcutaneous immunotherapy induced a systemic increase in Th2-associated cytokine secretion, transcutaneous application revealed a general downregulation of Th1/Th2/Th17 responses. Successful therapy was associated with induction of IgG2a and an increase in FOXP3+ CD4+ T cells. Conclusions Transcutaneous immunotherapy via laser microporation is equally efficient compared with conventional subcutaneous treatment but avoids therapy-associated boosting of systemic Th2 immunity. Immunotherapy via laser-microporated skin combines a painless application route with the high efficacy known from subcutaneous injections and therefore represents a promising alternative to established forms of immunotherapy.

Published

2012

24. Molecular characterization of wheat allergens specifically recognized by patients suffering from wheat-induced respiratory allergy

Author

Josef Thalhamer, Claudia Constantin, Irene Mittermann, Sandra Pahr, Rudolf Valenta, Christof Ebner, Sandra Scheiblhofer, Susanne Vrtala, and Adriano Mari

Subjects

Adult, Male, Allergy, Immunoblotting, Molecular Sequence Data, Immunology, Dot blot, Enzyme-Linked Immunosorbent Assay, Wheat Hypersensitivity, Cross Reactions, medicine.disease_cause, Immunoglobulin E, Basophil degranulation, Cell Degranulation, Microbiology, law.invention, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Allergen, Food allergy, law, medicine, Humans, Immunology and Allergy, Amino Acid Sequence, Plant Proteins, 030304 developmental biology, 2. Zero hunger, 0303 health sciences, biology, Reverse Transcriptase Polymerase Chain Reaction, business.industry, food and beverages, Allergens, Middle Aged, respiratory system, medicine.disease, Asthma, Recombinant Proteins, 3. Good health, Biotechnology, 030228 respiratory system, biology.protein, Recombinant DNA, Female, business, Wheat allergy

Abstract

SummaryBackground Wheat (Triticum aestivum) is an important allergen source responsible for various clinical manifestations of allergy (i.e. food allergy, pollen allergy, respiratory allergy to flour-Baker's asthma). Objective The objective of this study was the molecular and immunological characterization of new recombinant wheat allergens and to evaluate their usefulness for the diagnosis of allergy to wheat. Methods A T. aestivum cDNA library was constructed and screened with serum IgE from patients suffering from wheat allergy to identify cDNAs coding for new wheat allergens. The allergen-encoding cDNAs were expressed in Escherichia coli and purified to homogeneity. IgE reactivity of recombinant proteins was analysed in RAST-based, non-denaturing dot blot experiments and by ELISA with sera from wheat allergic patients and their allergenic activity was assessed in basophil degranulation experiments. Results We report the molecular characterization, recombinant expression and purification of five wheat allergens, a thioredoxin h isoform, glutathione transferase, 1-Cys-peroxiredoxin, profilin and dehydrin. Homologous proteins were identified by sequence comparisons in various plants. 1-Cys-peroxiredoxin appeared to be the most relevant of the newly identified wheat allergens according to prevalence of IgE recognition and results from basophil degranulation experiments. It showed IgE cross-reactivity with seed proteins from barley, rye, rice, maize, soy, oat and spelt. 1-Cys-peroxiredoxin, glutathione transferase and dehydrin were mainly recognized by patients with baker's asthma but not wheat-induced food allergy. Conclusion and Clinical Relevance The characterized recombinant wheat allergens may be useful for the development of serological tests which allow the discrimination of different clinical manifestations of wheat allergy.

Published

2012

25. T Cell Epitopes of the Timothy Grass Pollen Allergen Phl p 5 of Mice and Men and the Detection of Allergen-Specific T Cells Using Class II Ultimers

Author

Martin Danzer, Felix Sedlmayer, Gerd Fastner, Richard Weiss, Roland Lang, Elisabeth Roesler, Sandra Scheiblhofer, Angelika Stoecklinger, Andreas Lang, and Josef Thalhamer

Subjects

T-Lymphocytes, Molecular Sequence Data, Immunology, Type i allergy, Epitopes, T-Lymphocyte, Biology, Lymphocyte Activation, medicine.disease_cause, Epitope, Timothy grass pollen allergen, Mice, T-Cell Epitopes, Allergen, medicine, Animals, Humans, Immunology and Allergy, Amino Acid Sequence, Plant Proteins, Mice, Inbred BALB C, Staining and Labeling, Immunodominant Epitopes, General Medicine, Immunoglobulin E, Mice, Inbred C57BL, Epitope mapping, Female, Epitope Mapping

Abstract

Background: Knowledge of allergen-specific T cell epitopes is a prerequisite not only for therapeutic approaches but also for elucidating immunological mechanisms of type I allergy. Ex vivo detection of allergen-specific T cells using class II tetramer technology has become an important tool for investigating immune responses in atopic and healthy individuals. Methods: Using 3H-thymidine incorporation assays, T cell epitopes specific for the major timothy grass pollen allergen Phl p 5.0101 were mapped in 11 allergic donors and two different mouse strains. Different protocols for expansion/restimulation of T cells from the blood of allergic donors and detection of allergen-specific T cells by Class II Ultimer staining were evaluated. Results: We identified several new Phl p 5.0101 class II T cell epitopes in allergic patients and confirmed previously published ones. Additionally, we discovered the major T cell epitopes in BALB/c and C57BL/6 mice. Using a novel Class II Ultimer, we detected epitope-specific T cells expanded from the blood of an allergic donor. Conclusions: Epitope mapping of Phl p 5.0101 revealed an immunodominant epitope in BALB/c and C57BL/6 mice and an immunodominant region in humans (amino acids 259–282), which was recognized by 8 out of 11 allergic donors. Detection of Phl p 5-specific T cells was demonstrated using a Class II Ultimer specific for epitope 196–210. Successful detection of ultimer-positive T cells was strongly dependent on a resting phase after in vitro expansion.

Published

2012

26. Molecular characterization of Der p 10: a diagnostic marker for broad sensitization in house dust mite allergy

Author

Rudolf Valenta, Ines Swoboda, Yvonne Resch, Sandra Scheiblhofer, Susanne Vrtala, Wayne R. Thomas, Birgit Linhart, J. Thalhamer, Margit Weghofer, Friedrich Horak, and Susanne Seiberler

Subjects

House dust mite, Allergy, integumentary system, biology, House dust mite allergy, medicine.medical_treatment, Immunology, Diagnostic marker, macromolecular substances, musculoskeletal system, Immunoglobulin E, biology.organism_classification, medicine.disease, respiratory tract diseases, medicine.anatomical_structure, immune system diseases, biology.protein, Mite, medicine, Immunology and Allergy, Sensitization, Desensitization (medicine)

Abstract

Background Tropomyosins represent clinically relevant seafood allergens but the role of mite tropomyosin, Der p 10, in house dust mite (HDM) allergy has not been studied in detail.

Published

2011

27. Recombinant monoclonal human immunoglobulin E to investigate the allergenic activity of major grass pollen allergen Phl p 5

Author

Josef Thalhamer, Christoph Madritsch, Domen Zafred, Sandra Scheiblhofer, Sabine Flicker, Walter Keller, Tea Pavkov-Keller, and Rudolf Valenta

Subjects

medicine.drug_class, Immunology, Biology, Basophil, Monoclonal antibody, Immunoglobulin E, medicine.disease_cause, Molecular biology, Isotype, law.invention, Allergen, medicine.anatomical_structure, law, Monoclonal, otorhinolaryngologic diseases, medicine, biology.protein, Recombinant DNA, Immunology and Allergy, Antibody

Abstract

Cite this as: C. Madritsch, S. Flicker,S. Scheiblhofer, D. Zafred, T. Pavkov-Keller, J. Thalhamer, W. Keller and R. Valenta, Clinical & Experimental Allergy, 2011 (41) 270–280. Abstract Background Allergen recognition by IgE antibodies is a key event in allergic inflammation. Objective To construct a plasmid for the expression of human monoclonal IgE antibodies of any desired specificity and to express IgE specific for the major timothy grass pollen allergen Phl p 5. Methods In a first step, the DNA sequence coding for the IgG1 heavy chain was excised and replaced by the sequence coding for the human ɛ constant region gene in plasmid pLNOH2 expressing a human Phl p 5-specific IgG1 heavy chain. Then, this construct together with a second plasmid expressing the corresponding Phl p 5-specific light chain was co-expressed in COS-7 cells. The Phl p 5-specific IgE (rhuMabEP5) was analysed for allergen-specificity and isotype by ELISA. Cross-reactivity of rhuMabEP5 was investigated by immunoblotting using pollen extracts from various grass species. The allergenic activity of Phl p 5 was studied by exposing rat basophil leukaemia (RBL) cells expressing human-FcɛRI to rhuMabEP5 and Phl p 5. Results We report the construction of vector pLNOH2-P5IgE, for the expression of human IgE and exemplify its usefulness by the production of a complete and functional human monoclonal IgE (rhuMabEP5). rhuMabEP5 is specific for the grass pollen allergen Phl p 5 and cross-reacts with group 5 allergens in natural grass pollen extracts. RBL-release assays with rhuMabEP5 demonstrated that oligomerization does not contribute to the high allergenic activity of Phl p 5. Conclusion and Clinical Relevance Plasmid pLNOH2-P5IgE allowed the production of a fully functional human monoclonal IgE antibody specific for Phl p 5. Recombinant human IgE antibodies of defined specificity represent useful tools to investigate mechanisms underlying IgE-mediated allergies.

Published

2010

28. Prophylactic mRNA vaccination against allergy

Author

Fatima Ferreira, Richard Weiss, Elisabeth Roesler, Josef Thalhamer, and Sandra Scheiblhofer

Subjects

Allergy, Cost-Benefit Analysis, medicine.medical_treatment, Immunology, Immunoglobulin E, DNA vaccination, Mice, Immune system, Drug Stability, Hypersensitivity, medicine, Animals, Humans, Immunology and Allergy, RNA, Messenger, Th1-Th2 Balance, biology, business.industry, Immunogenicity, Vaccination, Immunotherapy, medicine.disease, Eosinophils, Cytokine, biology.protein, Cytokines, business

Abstract

Purpose of review mRNA vaccines have recently been re-discovered as an attractive alternative to the more prominent DNA vaccines, as they harbor many advantages with respect to safety and regulatory issues. Whereas most mRNA vaccines are focused on tumor therapy, this type of vaccine has now also been successfully employed for prophylactic immunization against type I allergy in a mouse model. This concept differs from conventional immunotherapy in that it relies on immune deviation toward a TH1 phenotype, rather than induction of regulatory T cells or tolerance. Recent findings Conventional as well as self-replicating mRNA vaccines have demonstrated their potential to prevent the induction of an allergic phenotype in terms of allergen-specific IgE, allergy-associated cytokine profiles, eosinophilic lung infiltration, and airway hyperreactivity. Preliminary data raise the question whether TH1 immune deviation induced by mRNA vaccination resembles the natural phenotype of a certain proportion of nonatopic individuals. Recent findings Reservations regarding Good Manufacturing Practices manufacture costs, shelf life stability, and lack of immunogenicity due to rapid in-vivo degradation have been overcome by novel findings. Summary mRNA vaccines open the field for a safety-optimized prophylactic vaccination against allergic diseases. Future studies concerning long-term effects and vaccine-induced versus natural immune responses will be needed to transfer this knowledge to the clinics.

Published

2010

29. Microarray and allergenic activity assessment of milk allergens

Author

Susanne Spitzauer, Josef Thalhamer, Mats Nystrand, Nadja Balic, Rudolf Valenta, E. A. F. van Tol, Udo Herz, Christof Ebner, Bodo Niggemann, Gabrielle Pauli, Adriano Mari, Sandra Scheiblhofer, Annika Härlin, Ulrike Schulmeister, Heidrun Hochwallner, Ines Swoboda, Santiago Quirce, and B Geller

Subjects

Microarray, biology, business.industry, Immunology, food and beverages, Milk allergy, Basophil, Immunoglobulin E, medicine.disease_cause, Basophil degranulation, medicine.disease, medicine.anatomical_structure, Allergen, Antigen, Food allergy, medicine, biology.protein, Immunology and Allergy, business

Abstract

SummaryBackground Cow’s milk is one of the most common causes of food allergy affectingapproximately 2.5% of infants in the first years of their life. However, only limitedinformation regarding the allergenic activity of individual cow’s milk allergens is available.ObjectiveToanalysethefrequencyofIgEreactivityandtodeterminetheallergenicactivityofindividual cow’s milk allergens.MethodsA nitrocellulose-based microarray, based on purified natural and recombinant cow’smilk allergens was used to determine IgE reactivity profiles using sera from 78 cow’s milk-sensitized individuals of varying ages. The allergenic activity of the individual allergens wastested using patients’ sera for loading rat basophil leukaemia cells (RBL) expressing thea-chain of the human receptor FceRI.Results Using the microarray and the RBL assay, cow’s milk allergens were assessed forfrequency of IgE recognition and allergenic activity. Moreover, the RBL assay alloweddistinguishing individuals without or with mild clinical reactions from those with severesystemic or gastrointestinal symptoms as well as persons who grew out cow’s milk allergyfrom those who did not.Conclusions Component-resolved testing using milk allergen microarrays and RBL assaysseems to provide useful additional diagnostic information and may represent a basis forfuture forms of prophylactic and therapeutic strategies for cow’s milk allergy.Keywords Basophil degranulation, cow’s milk allergy, diagnosis, microarray, recombinantallergenSubmitted 15 March 2010; revised 8 June 2010; accepted 13 July 2010

Published

2010

30. Genetic immunization: new ways for protective and therapeutic vaccines against allergic diseases

Author

Richard Weiss, Josef Thalhamer, and Sandra Scheiblhofer

Subjects

Gynecology, medicine.medical_specialty, Immunization, Geriatrics gerontology, business.industry, Pharmacology toxicology, medicine, General Medicine, business

Abstract

Die genetische Immunisierung, oder auch DNA-Immunisierung genannt, hat sich im letzten Jahrzehnt als wirksame Methode zur Induktion von anti-allergischen Immunreaktionen im Tiermodell bewahrt. Die Wirkung von DNA-Impfstoffen beruht auf der Rekrutierung von Allergen-spezifischen Th1- und CD8+-Zellen und dem Aufbau eines Th1-Zytokin-Milieus. Die Kombination beider Aspekte wirkt in einem protektiven Ansatz gegen die Entwicklung einer Th2-Immunreaktion und vermindert in einem therapeutischen Ansatz eine bereits bestehende allergische Reaktion. Genetische Vakzine offnen innovative Auswege aus den Problemen, die mit der Immunisierung durch Proteine verbunden sind. Es konnen sowohl das Kreuzvernetzen von bereits vorhandenen IgE-Antikorpern auf Mastzellen und Basophilen als auch die Induktion von neuen IgE-Antikorpern vermieden werden. Neben der Beschreibung der Wirkungsweise der genetischen Immunisierung wird im vorliegenden Ubersichtsartikel die Entwicklung von auf Sicherheit und Wirksamkeit optimierten DNA-Vakzinen zur Allergiebehandlung vorgestellt.

Published

2007

31. Gene gun immunization with clinically relevant allergens aggravates allergen induced pathology and is contraindicated for allergen immunotherapy

Author

Cornelia Hauser-Kronberger, Beate Alinger, Josef Thalhamer, Peter Hammerl, Angelika Stoecklinger, Christina Gruber, Sandra Scheiblhofer, and Richard Weiss

Subjects

Allergen immunotherapy, Pathology, medicine.medical_specialty, T-Lymphocytes, medicine.medical_treatment, Immunology, chemical and pharmacologic phenomena, Immunoglobulin E, medicine.disease_cause, Gene gun, Interferon-gamma, Mice, Allergen, Antigen, Hypersensitivity, Vaccines, DNA, medicine, Animals, Pulmonary Eosinophilia, Lung, Molecular Biology, Plant Proteins, Desensitization (medicine), Mice, Inbred BALB C, biology, Immunotherapy, Allergens, Antigens, Plant, Biolistics, beta-Galactosidase, Basophils, Rats, Immunization, Desensitization, Immunologic, Immunoglobulin G, biology.protein, Female, Bronchoalveolar Lavage Fluid

Abstract

Gene gun immunization has been associated with the induction of a heterologous type of immune response characterized by a T(H)1-like immune reaction on the cellular level, i.e. generation of IFN-gamma secreting CD8(+) T-cells, yet a T(H)2 biased serology as indicated by high IgG1:IgG2a ratios and induction of IgE. Nevertheless, gene gun immunization using the model molecule beta-galactosidase has been argued to prevent IgE induction and to promote T(H)1 cells with respect to allergy DNA immunization. In our current study, we evaluated the potential of gene gun immunization to prevent type I allergic reactions comparing beta-galactosidase with two clinically relevant allergens, and further investigated the effect of gene gun immunization on relevant lung parameters. BALB/c mice were immunized with plasmids encoding the birch pollen allergen Bet v 1, the grass pollen allergen Phl p 5, or the model molecule beta-galactosidase, either by gene gun or intradermal injection followed by sensitization and intranasal provocation with the respective allergen. IgG1 and IgG2a antibody titers were determined by ELISA. IgE levels were evaluated in a rat basophil release assay. The severity of eosinophilia was determined in bronchoalveolar lavages, and the overall infiltrate was analyzed by histology on lung paraffin sections. Gene gun immunization induced a T(H)2-biased immune reaction, which did not prevent from production of IgE after subsequent sensitization. This T(H)2 effect was influenced by the nature of the antigen, with a more pronounced T(H)2-bias for the allergens Bet v 1 and Phl p 5 compared to beta-galactosidase. Gene gun immunization with all three antigens promoted eosinophil influx into the lung and did not alleviate lung pathology after intranasal provocation. In contrast to needle injection of plasmid DNA, which triggers a clearly T(H)1-biased and allergy-preventing immune response, gene gun application fails to induce anti-allergic reactions with all tested antigens and is therefore contraindicated for allergen-specific immunotherapy.

Published

2007

32. Epidermal inoculation of Leishmania-antigen by gold bombardment results in a chronic form of leishmaniasis

Author

Josef Thalhamer, Thomas Bickert, Richard Weiss, Sandra Scheiblhofer, Ulrike Richardt, Bernhard Fleischer, and Uwe Ritter

Subjects

Cellular immunity, Leishmaniasis, Cutaneous, Antigens, Protozoan, Mice, Antigen, Immunity, medicine, Animals, Leishmania major, Mice, Inbred BALB C, integumentary system, General Veterinary, General Immunology and Microbiology, biology, Epidermis (botany), Public Health, Environmental and Occupational Health, Kinetoplastida, Leishmaniasis, Biolistics, Th1 Cells, medicine.disease, biology.organism_classification, Leishmania, Infectious Diseases, Langerhans Cells, Chronic Disease, Immunology, Molecular Medicine, Female, Epidermis

Abstract

Experimental leishmaniasis represents a suitable model to analyze Th1-type associated immunity. In C57BL/6 mice healing of leishmaniasis correlates with activation of Th1 cells. Recently, it could be demonstrated that dermal dendritic cells rather than epidermal Langerhans cells are responsible for the activation of Th1 cells after infection, indicating a necessary reconsideration of the role of Langerhans cells. In our current work, epidermal application of Leishmania-antigen prior to infection resulted in an atypical course of disease that is characterized by an impaired Leishmania-specific Th1 response. Consequently, these mice cannot manage an efficient elimination of the parasites at the site of infection. These data point to the activation of immunomodulatory effects by epidermal incorporation of antigen.

Published

2007

33. What is the antiallergic potential of DNA vaccination?

Author

Richard, Weiss, Sandra, Scheiblhofer, and Josef, Thalhamer

Subjects

Vaccination, Hypersensitivity, Vaccines, DNA, Animals, Humans, Portraits as Topic

Published

2015

34. Genetische Immunisierung gegen das Zirkumsporozoitenprotein des Malariaerregers

Author

Josef Thalhamer, Richard Weiss, and Sandra Scheiblhofer

Subjects

Plasmodium, Plasmodium falciparum, Protozoan Proteins, Antibodies, Protozoan, DNA vaccination, Gene gun, Malaria Vaccines, parasitic diseases, Vaccines, DNA, medicine, Animals, Humans, Vaccines, Combined, Malaria, Falciparum, Malaria vaccine, business.industry, General Medicine, medicine.disease, Vaccine efficacy, Virology, Circumsporozoite protein, Vaccination, Immunization, Immunology, business, Malaria

Abstract

Malaria is the world's major parasitic disease, for which effective control measures are urgently needed. Despite considerable efforts, no successful vaccine against malaria has been developed so far. The method of DNA-based immunization offers the possibility to induce both antibody- and cell-mediated immune responses to a variety of antigens. The flexibility of the DNA vaccine technology permits the combination of several antigens from different developmental stages of the parasite's complicated life cycle. This review covers the development of DNA-based immunization against malaria from initial experiments in small animals to recently conducted clinical studies. Focusing on one of the best characterized malaria vaccine candidate antigens, the circumsporozoite protein, an overview of strategies to enhance vaccine efficacy is provided. Advanced application methods such as the gene gun technology or the needle-less jet injection device are described. As DNA vaccination represents a relatively new methodology, safety concerns associated with planned clinical applications are discussed. In summary, this novel type of vaccine has to be considered as a promising tool for future malaria vaccination strategies.

Published

2006

35. Inhibition of type I allergic responses with nanogram doses of replicon-based DNA vaccines

Author

Fatima Ferreira, Renate Bauer, J. Thalhamer, Wolfgang W. Leitner, Richard Weiss, T. Zoegg, Sandra Scheiblhofer, and Maximilian Gabler

Subjects

Hypersensitivity, Immediate, medicine.medical_treatment, Immunology, Biology, Basophil, Immunoglobulin E, DNA vaccination, Interferon-gamma, Mice, Cell Line, Tumor, Cricetinae, Vaccines, DNA, medicine, Animals, Immunology and Allergy, Replicon, Mice, Knockout, Mice, Inbred BALB C, Interleukin-12 Subunit p40, Immunogenicity, ELISPOT, Immunotherapy, Allergens, Th1 Cells, beta-Galactosidase, Virology, Basophils, Rats, medicine.anatomical_structure, Immunoglobulin G, biology.protein, Cytokines, Female, Antibody, Spleen

Abstract

Background: Allergic diseases have become a major public health problem in developed countries; yet, no reliable, safe and consistently effective treatment is available. DNA immunization has been shown to prevent and balance established allergic responses, however, the high dose of conventional DNA vaccines necessary for the induction of anti-allergic reactions and their poor immunogenicity in primates require the development of new allergy DNA vaccines. We evaluated protective and therapeutic effects of a Semliki-Forest Virus replicase-based vs a conventional DNA vaccine in BALB/c mice using the model allergen β-galactosidase. Methods: Immunoglobulin (Ig)E suppression was determined by a basophil release assay as an in vitro correlate for allergen-specific crosslinking capacity of IgE reflecting the in vivo situation in an allergic individual. Th1 memory responses were measured by cytokine detection via enzyme-linked immunosorbent assay (ELISA) and enzyme-linked immunospot assay (ELISPOT). Results: Nanogram amounts of a replicase-based vector triggered a Th1 response comparable with that achieved with the injection of 20 000-times more copies of a conventional DNA plasmid, and induced IgE suppression in both a protective and a therapeutic setting. Conclusions: Replicase-based DNA vaccines fulfill the stringent criteria for an allergy DNA vaccine, i.e. low dose, strong Th1 immunogenicity and memory, lack of ‘therapy-induced’ IgE production and anaphylactic side effects. Moreover, by triggering apoptosis in transfected cells, their unique ‘immunize and disappear’ feature minimizes the hypothetical risks of genomic integration or induction of autoimmunity.

Published

2006

36. Generation of hypoallergenic DNA vaccines by forced ubiquitination: Preventive and therapeutic effects in a mouse model of allergy

Author

Kerstin Kern, Josef Thalhamer, Christina Gruber, Roman Bauer, Fatima Ferreira, Beate Alinger, Sandra Scheiblhofer, Arnulf Hartl, Maximilian Gabler, Cornelia Hauser-Kronberger, Theresa Thalhamer, Thomas Zoegg, Tatjana Stepanoska, and Richard Weiss

Subjects

medicine.medical_treatment, Immunology, Biology, medicine.disease_cause, Immunoglobulin E, DNA vaccination, Mice, Allergen, Immune system, Antigen, Hypersensitivity, Vaccines, DNA, medicine, Animals, Immunology and Allergy, Mice, Inbred BALB C, Ubiquitin, ELISPOT, Hypoallergenic, Immunotherapy, Allergens, Antigens, Plant, Th1 Cells, Virology, Disease Models, Animal, biology.protein, Female

Abstract

Background Hypoallergenic immunotherapy of type I allergies aims at inducing T-cell immunity while avoiding cross-linking of pre-existing IgE. DNA-based immunotherapy depends on the recruitment of antigen-specific T H 1 cells and therefore has to provide the whole repertoire of T-cell epitopes. Ubiquitination offers a general approach for the production of hypoallergenic DNA vaccines. Objective A DNA-based vaccine encoding the major birch pollen allergen Bet v 1 stably linked to ubiquitin was evaluated for its antiallergic potential in a BALB/c mouse model of allergy. Methods Plasmid DNA was applied to mice before (preventive) or after (therapeutic) sensitization with recombinant Bet v 1. In the preventive setting, mice were exposed to aerosolized allergen in addition. Cytokine production was monitored via ELISPOT and Luminex. IgG 1 , IgG 2a , and IgE subclass antibody titers were determined by ELISA. In vitro antigen-specific cross-linking of IgE was measured in a degranulation assay. Bronchoalveolar lavages were analyzed for leukocyte subsets as well as for IFN-γ and IL-5, and paraffin sections of lungs were examined for mucus production and endothelial damage. Results Prevaccination with ubiquitinated Bet v 1–stimulated T H 1-biased immune responses with concomitant suppression of functional IgE, reduction of eosinophil counts in bronchoalveolar lavages, and alleviation of lung pathology, and could also suppress an ongoing IgE response in a therapeutic setting. Conclusion The data clearly demonstrate that hypoallergenic DNA vaccines encoding ubiquitin fusion constructs induce effective antiallergic immune responses. Clinical implications Ubiquitination of allergen gene vaccines eliminates the risk of IgE cross-linking, thereby meeting the safety requirements for clinical applications.

Published

2006

37. Is Genetic Vaccination against Allergy Possible?

Author

Fatima Ferreira, Richard Weiss, Wolfgang W. Leitner, Josef Thalhamer, Sandra Scheiblhofer, and Maximilian Gabler

Subjects

Allergy, medicine.medical_treatment, Immunology, Hypoallergenic, General Medicine, Th1 Cells, Biology, Immunoglobulin E, medicine.disease, DNA vaccination, Vaccination, Immune system, Immunization, Antibody Formation, Hypersensitivity, Vaccines, DNA, medicine, biology.protein, Animals, Humans, Immunology and Allergy, Adjuvant

Abstract

Genetic immunization has proven a powerful method to induce antiallergic immune responses. The underlying functional principle has been described to be based on the recruitment of allergen-specific Th1 cells, CD8+ cells and the establishment of a Th1 cytokine milieu, which prevent the development of a Th2-biased response in a protective setup and can balance an ongoing Th2-type response in a therapeutic situation. Genetic immunization with plasmid DNA offers innovative solutions to the major problems associated with protein immunization, such as crosslinking of pre-existing immunoglobulin E on mast cells/basophils or induction of de novo synthesis of immunoglobulin E by the protein immunization itself. It easily enables the routine production of hypoallergenic vaccines, which do not translate native allergens, thus avoiding potential anaphylactic side effects. DNA vaccines can also be applied as mixtures of single vaccines, making them interesting candidates for treatment based on component-resolved diagnosis, followed by an individualized therapy with the relevant allergens. In addition to the description of up-to-date allergen gene vaccine approaches, this review gives an overview of animal studies dealing with the following topics: danger signals as the inherent adjuvant properties, methods to optimize the vaccine immunogenicity, modulation of the immune response, nonparenteral applications and low-dose vaccination strategies.

Published

2006

38. C3d binding to the circumsporozoite protein carboxy-terminus deviates immunity against malaria

Author

Josef Thalhamer, George C. Tsokos, Richard Weiss, David B. Winter, Evelina Angov, Elizabeth H. Duncan, Farhat Khan, Jeffrey A. Lyon, Jackie L. Williams, Wolfgang W. Leitner, Elke S. Bergmann-Leitner, Sandra Scheiblhofer, and Defeng Chen

Subjects

Plasmodium berghei, Molecular Sequence Data, Immunology, Protozoan Proteins, Antibodies, Protozoan, chemical and pharmacologic phenomena, Biology, Epitope, DNA vaccination, Mice, Th2 Cells, Immune system, Immunity, parasitic diseases, Animals, Immunology and Allergy, Base Sequence, Immunogenicity, fungi, General Medicine, biology.organism_classification, Virology, Recombinant Proteins, Malaria, Circumsporozoite protein, Complement C3d, biology.protein, Antibody, Spleen

Abstract

The immunogenicity of recombinant protein or anti-viral DNA vaccines can be significantly improved by the addition of tandem copies of the complement fragment C3d. We sought to determine if the efficacy of a circumsporozoite protein (CSP)-based DNA vaccine delivered to mouse skin by gene gun was improved by using this strategy. Instead, we found that C3d suppressed the protective immunity against Plasmodium berghei malaria infection and deviated immunity, most notably by suppressing the induction of antibodies specific for the CSP C-terminal flanking sequence and by suppressing the induction of CSP-specific IL-4-producing spleen cells. We further showed that C3d bound to the C-terminal flanking sequence of the CSP, which may explain the immune deviation observed in CS/C3d chimeric antigen. We have thus identified C3d-mediated epitope masking and shifting of both the humoral and cellular immune responses as a potential novel escape mechanism, which plasmodia may use to divert the induction of protective immunity.

Published

2005

39. A DNA vaccine encoding the outer surface protein C from Borrelia burgdorferi is able to induce protective immune responses

Author

Michael Breitenbach, Ian Livey, Richard Weiss, Sandra Scheiblhofer, Josef Thalhamer, Sven Mostböck, and Hans Dürnberger

Subjects

Cellular immunity, Immunology, Spirochaetaceae, Microbiology, DNA vaccination, law.invention, Mice, Th2 Cells, Ticks, Lyme disease, law, Vaccines, DNA, medicine, Animals, Borrelia burgdorferi, Antigens, Bacterial, Lyme Disease, Mice, Inbred BALB C, biology, Lyme Disease Vaccines, Th1 Cells, bacterial infections and mycoses, medicine.disease, biology.organism_classification, Virology, Infectious Diseases, Bacterial Vaccines, Humoral immunity, Recombinant DNA, biology.protein, Antibody, Bacterial Outer Membrane Proteins, Plasmids

Abstract

The outer surface protein C (OspC) of Borrelia burgdorferi , the spirochete that causes Lyme disease, is a promising candidate for a vaccine against borreliosis. BALB/c and C3H/HeJ mice were immunized either with recombinant OspC protein or with plasmid DNA encoding OspC fused to the human tissue plasminogen activator leader sequence (pCMV-TPA/ZS7). The influence of the route of administering the DNA and the use of oligodeoxynucleotides containing CpG-motifs on the development of the immune response was investigated. In both mouse strains, protein as well as gene-gun immunization induced Th2 type responses, whereas needle injection of plasmid DNA resulted in Th1 type antibody production. Co-injection of CpG-motifs did not significantly modify the response type in any immunization group, as indicated by only marginal changes of antibody subclass distribution. The protection rate after challenge with 10 4 B. burgdorferi organisms per mouse was between 80% and 100% for all groups. These results demonstrate, for the first time, that a DNA vaccine encoding OspC of B. burgdorferi is suitable for inducing protection against Lyme borreliosis.

Published

2003

40. Gene gun bombardment with gold particles displays a particular Th2-promoting signal that over-rules the Th1-inducing effect of immunostimulatory CpG motifs in DNA vaccines

Author

Sandra Scheiblhofer, Josef Thalhamer, Johann Freund, Fatima Ferreira, Ian Livey, and Richard Weiss

Subjects

Cellular immunity, Injections, Intradermal, medicine.medical_treatment, Genetic Vectors, DNA, Recombinant, Dose-Response Relationship, Immunologic, Biology, DNA vaccination, Gene gun, Interferon-gamma, Mice, chemistry.chemical_compound, Th2 Cells, Adjuvants, Immunologic, Immunity, Vaccines, DNA, medicine, Animals, Betula, Plant Proteins, Antigens, Bacterial, Mice, Inbred BALB C, General Veterinary, General Immunology and Microbiology, Immunogenicity, Vaccination, Public Health, Environmental and Occupational Health, Allergens, Antigens, Plant, Biolistics, Th1 Cells, Antibodies, Bacterial, Virology, Molecular biology, Infectious Diseases, chemistry, CpG site, Needles, Borrelia burgdorferi, Immunoglobulin G, Pollen, Molecular Medicine, CpG Islands, Female, Gold, Interleukin-4, Adjuvant, DNA, Bacterial Outer Membrane Proteins

Abstract

The mode of administering a DNA vaccine can influence the type of immune response induced by the vaccine. For instance, application of a DNA vaccine by gene gun typically induces a Th2-type reaction, whereas needle inoculation triggers a Th1 response. It has been proposed that the approximately 100-fold difference in the amount of DNA administered by these two methods is the critical factor determining whether a Th1 or a Th2 response is made. To test this hypothesis, BALB/c mice were immunized with two plasmid DNA constructs encoding different proteins (OspC/ZS7 of Borrelia burgdorferi and Bet v 1a, the major birch pollen allergen). Both vaccines were applied by needle and/or by gene gun immunization at the same and at different sites of injection. An analysis of the IgG subclass distribution and measurement of IFN-gamma after antigen-specific lymphoproliferation does not support the widely accepted view that Th2-type immunity induced by gene gun application is solely due to the low amount of injected plasmid DNA thus falling below the critical concentration of CpG motifs necessary for Th1-induction. Furthermore, the data also indicate a strong and even systemic adjuvant effect of the gene gun shot itself.

Published

2002

41. Natural protective immunity against grass pollen allergy is maintained by a diverse spectrum of response types

Author

Martin Danzer, Sandra Scheiblhofer, Christian Gabriel, Stephan M. Winkler, Yoan Machado, Susanne Schaller, Christoph Hillebrand, Josef Thalhamer, Almedina Kurtaj, Richard Weiss, Johannes Weinberger, Theresa Thalhamer, Melanie Lietzenmayer, Gerda Fichtinger, Angelika Stoecklinger, Sabine Keplinger, Susanne Suessner, and Eva Hattinger

Subjects

0301 basic medicine, Protective immunity, Immunology, Grass pollen allergy, respiratory system, Biology, Acquired immune system, 03 medical and health sciences, Broad spectrum, 030104 developmental biology, 0302 clinical medicine, 030228 respiratory system, T-regulatory cell, Immunology and Allergy

Abstract

Capsule summary Naturally acquired immunity against allergens utilizes a broad spectrum of response types besides T regulatory cells. Therapeutic concepts should not be limited to T regulatory cell induction, but take advantage of the diversity found in natural responses.

Published

2017

42. Protective and Therapeutic DNA Vaccination Against Allergic Diseases

Author

Josef Thalhamer, Almedina Isakovic, Richard Weiss, and Sandra Scheiblhofer

Subjects

Allergy, biology, business.industry, Hypoallergenic, Immunoglobulin E, medicine.disease, DNA vaccination, chemistry.chemical_compound, Immune system, chemistry, Antigen, Immunology, biology.protein, Medicine, business, DNA, Anaphylaxis

Abstract

DNA vaccines represent a novel approach for protective and therapeutic intervention against type I allergies. In contrast to classical subcutaneous immunotherapy, which relies on the injection of alum-adsorbed protein extracts, DNA vaccines do not suffer from side effects such as anaphylaxis or therapy-induced IgE antibodies. In animal models, DNA vaccines have been demonstrated to prevent TH2 sensitization or balance an existing TH2-mediated allergic immune response by induction of TH1 or regulatory T cells, rendering them promising candidates for prophylactic vaccination as well as therapy. In this chapter, we discuss methods relevant for evaluation of DNA expression vectors for targeting antigen to different cellular compartments for use as a vaccine in an asthma mouse model. Attaching signal sequences has proven to be a successful way to manipulate and boost the immune responses following DNA immunization and also creating hypoallergenic DNA vaccines.

Published

2014

43. Removal of the circumsporozoite protein (CSP) glycosylphosphatidylinositol signal sequence from a CSP DNA vaccine enhances induction of CSP-specific Th2 type immune responses and improvesprotection against malaria infection

Author

Richard Weiss, Defeng Chen, Josef Thalhamer, Konstantin Fegeding, Wolfgang W. Leitner, Sandra Scheiblhofer, Farhat Khan, Sven Mostböck, and Jeffrey A. Lyon

Subjects

Signal peptide, Time Factors, animal structures, Glycosylphosphatidylinositols, Plasmodium berghei, Immunology, Protozoan Proteins, Antibodies, Protozoan, Heterologous, Antigens, Protozoan, Protein Sorting Signals, Biology, complex mixtures, DNA vaccination, Mice, Th2 Cells, Immune system, Plasmid, Antigen, parasitic diseases, Vaccines, DNA, Animals, Immunology and Allergy, Cellular localization, Sequence Deletion, Mice, Inbred BALB C, fungi, Biolistics, Molecular biology, Malaria, Immunoglobulin Isotypes, Circumsporozoite protein, Immunoglobulin G, Female

Abstract

The C terminus of the circumsporozoite protein (CSP) is anchored to the parasite cell membrane by a glycosylphosphatidylinositol (GPI) glycolipid. This GPI signal sequence functions poorly in heterologous eukaryotic cells, causing CSP retention within internal cell organelles during genetic immunization. Cellular location of antigen has quantitative and qualitative effects on immune responses induced by genetic immunization. Removal of the GPI signal sequence had a profound effect on induction and efficacy of CSP-specific immune response after genetic immunization of BALB/c mice with a gene gun. The CSP produced from the plasmid lacking the GPI anchor signal sequence (CSP-A) was secreted and soluble, but that produced by the CSP+A plasmid was not. The CSP-A plasmid induced a highly polarized Th2 type response, in which the CSP-specific IgG antibody titer was three- to fourfold higher, and the protective effect was significantly greater than that induced by the CSP+A plasmid. Thus, these two physical forms of CSP induced quantitatively and qualitatively different immune responses that also differed in protective efficacy. Engineering plasmid constructs for proper cellular localization of gene products is a primary consideration for the preparation of optimally efficacious DNA vaccines.

Published

2001

44. Genetic Vaccination against Malaria Infection by Intradermal and Epidermal Injections of a Plasmid Containing the Gene Encoding thePlasmodium bergheiCircumsporozoite Protein

Author

Sven Mostböck, Wolfgang W. Leitner, Richard Weiss, Josef Thalhamer, Defeng Chen, Sandra Scheiblhofer, Jeffrey A. Lyon, and Andrea Bernhaupt

Subjects

Injections, Intradermal, Plasmodium berghei, Immunology, Protozoan Proteins, Antibodies, Protozoan, Lymphocyte Activation, complex mixtures, Microbiology, Gene gun, DNA vaccination, Mice, Immune system, Malaria Vaccines, parasitic diseases, Vaccines, DNA, Animals, Intradermal injection, Mice, Inbred BALB C, biology, Malaria vaccine, Immunogenicity, Vaccination, Biolistics, biology.organism_classification, Virology, Malaria, Circumsporozoite protein, Infectious Diseases, Microbial Immunity and Vaccines, Cytokines, Parasitology, Spleen, Plasmids, T-Lymphocytes, Cytotoxic

Abstract

The circumsporozoite protein (CSP) from the surface of sporozoite stagePlasmodiumsp. malaria parasites is among the most important of the malaria vaccine candidates. Gene gun injection of genetic vaccines encodingPlasmodium bergheiCSP induces a significant protective effect against sporozoite challenge; however, intramuscular injection does not. In the present study we compared the immune responses and protective effects induced byP. bergheiCSP genetic vaccines delivered intradermally with a needle or epidermally with a gene gun. Mice were immunized three times at 4-week intervals and challenged by a single infectious mosquito bite. Although 50 times more DNA was administered by needle than by gene gun, the latter method induced significantly greater protection against infection. Intradermal injection of the CSP genetic vaccine induced a strong Th1-type immune response characterized by a dominant CSP-specific immunoglobulin G2a (IgG2a) humoral response and high levels of gamma interferon produced by splenic T cells. Gene gun injection induced a predominantly Th2-type immune response characterized by a high IgG1/IgG2a ratio and significant IgE production. Neither method generated measurable cytotoxic T lymphocyte activity. The results indicate that a gene gun-mediated CS-specific Th2-type response may be best for protecting against malarial sporozoite infection when the route of parasite entry is via mosquito bite.

Published

2000

45. DNA immunization in vivo down-regulates nuclear all-trans retinoic acid receptors in mouse spleen cells

Author

Andrea Bernhaupt, Josef Thalhamer, Sven Mostböck, Julius Brtko, Richard Weiss, Arnulf Josef Hartl, and Sandra Scheiblhofer

Subjects

Receptors, Retinoic Acid, Retinoic acid, Down-Regulation, Retinoic acid receptor beta, Biology, Biochemistry, Retinoic acid-inducible orphan G protein-coupled receptor, Mice, chemistry.chemical_compound, Endocrinology, Escherichia coli, Vaccines, DNA, Animals, Molecular Biology, Cell Nucleus, Mice, Inbred BALB C, Base Sequence, Retinoid X receptor alpha, Retinoic acid receptor gamma, beta-Galactosidase, Retinoid X receptor gamma, Molecular biology, Retinoic acid receptor, Lac Operon, Oligodeoxyribonucleotides, chemistry, Retinoic acid receptor alpha, CpG Islands, Female, Immunization, Spleen

Abstract

Nuclear retinoid receptors - retinoic acid inducible transcription factors - participate in pathways influencing many components of the immune system. In the present study in vivo effects of DNA-based immunization of mice on binding parameters of all-trans retinoic acid receptors (RARs) in spleen cell nuclei was investigated. A eucaryotic expression vector encoding the gene for the model enzyme beta-galactosidase of Escherichia coli (pCMV-beta) was used for intradermal injection. Furthermore, immunostimulatory CpG motifs, which stimulate the expression of various cytokines and may serve as a 'danger signal' for the mammalian immune system, were coinjected as oligodeoxynucleotides. The results demonstrate that the concentration of RARs was significantly reduced in the late phase of the primary immune response (21 days after injection of plasmid DNA-indicated by high affinity IgG antibodies and IFN-gamma expression). Coinjection of CpG motifs did not change the course of the humoral response but enhanced and accelerated the proliferative response and expression of IFN-gamma, which correlated with the reduced RARs concentration.

Published

2000

46. Allergen microarray detects high prevalence of asymptomatic IgE sensitizations to tropical pollen-derived carbohydrates

Author

Margarete Focke-Tejkl, Christian Lupinek, Rudolf Valenta, Prem L. Bhalla, John Donnie A. Ramos, Marianne van Hage, Paul A. Knight, Sandra Scheiblhofer, Clarissa R. Cabauatan, Richard Weiss, and Mohan Singh

Subjects

Allergy, Immunology, Carbohydrates, medicine.disease_cause, Immunoglobulin E, Asymptomatic, Article, Phleum, Pollen, medicine, Prevalence, Immunology and Allergy, Animals, Humans, High prevalence, biology, Pyroglyphidae, Allergens, biology.organism_classification, medicine.disease, Allergen microarray, Rats, biology.protein, medicine.symptom

Published

2013

47. New approaches to transcutaneous immunotherapy: targeting dendritic cells with novel allergen conjugates

Author

Richard, Weiss, Sandra, Scheiblhofer, Yoan, Machado, and Josef, Thalhamer

Subjects

transcutaneous immunotherapy, Drug Delivery Systems, Desensitization, Immunologic, Hypersensitivity, allergen conjugates, carbohydrates, Epitopes, B-Lymphocyte, Immunization, IMMUNOTHERAPY AND NEW TREATMENTS: Edited by Giovanni Passalacqua and Robert Bush, dendritic cells, Allergens, C-type lectin receptors

Abstract

Purpose of review This review summarizes recent preclinical and human studies evaluating allergen-specific immunotherapy via the transcutaneous route, and provides a rationale for the application of modified allergens with reduced allergenicity. Furthermore, it covers approaches to generate hypoallergenic conjugates for specific dendritic cell targeting. Recent findings Efficacy and safety of specific immunotherapy by application of allergens to the skin have been demonstrated in both animal models as well as clinical trials. However, localized adverse events have been reported, and delivery of antigens via barrier-disrupted skin has been linked to the induction of unwanted T helper 2-biased immune responses and allergic sensitization. Coupling of carbohydrates to allergens has been shown to induce formation of nanoparticles, which can specifically target dendritic cells and potentiate immune responses, and by masking B-cell epitopes, can render the molecules hypoallergenic. Summary Due to its abundance of immunocompetent cells, the skin represents an attractive target tissue for novel and enhanced immunotherapeutic approaches. However, in order to avoid adverse events and therapy-induced sensitizations, transcutaneous immunotherapy requires the use of formulations with reduced allergenic potential. Combining novel hypoallergenic conjugates with painless transcutaneous immunization techniques may provide an efficient and patient-friendly alternative to the standard specific immunotherapy practices.

Published

2013

48. Novel Vaccines for Type I Allergy

Author

Josef Thalhamer, Sandra Scheiblhofer, and Richard Weiss

Subjects

Allergy, education.field_of_study, business.industry, Immunogenicity, medicine.medical_treatment, Population, Immunotherapy, medicine.disease, Allergic sensitization, medicine.anatomical_structure, Hygiene hypothesis, Immunology, Genetic predisposition, Medicine, business, education, Sensitization

Abstract

Today, type I allergies affect more than 30% of the population in western industrialized countries posing an increasing burden on public health systems. In this book chapter we provide an overview on the molecular characteristics of allergens and the mechanisms of allergic sensitization. Risk factors for sensitization such as genetic predisposition or environmental factors (“hygiene hypothesis”) are discussed and the current standards of diagnosis and medication are summarized. As classical allergen-specific immunotherapy suffers from unwanted side-effects, low patient compliance as well as insufficient efficacy, this chapter focuses on novel therapeutic approaches to overcome these limitations. These include new molecules, such as recombinant (hypo-) allergens or peptides but also advanced vector vaccines, and genetic vaccines. Such vaccine types address specific receptors of the innate immune system, resulting in increased immunogenicity and modulation of unwanted TH2 type responses. Finally, alternative routes to the standard subcutaneous injection or sublingual application are presented, which target highly immunocompetent tissues such as the skin or the lymph nodes.

Published

2013

49. Protein antigen delivery by gene gun-mediated epidermal antigen incorporation (EAI)

Author

Sandra, Scheiblhofer, Uwe, Ritter, Josef, Thalhamer, and Richard, Weiss

Subjects

Mice, Inbred C57BL, Mice, Staining and Labeling, Ovalbumin, Animals, Female, Lymph Nodes, Biolistics, Epidermis, Flow Cytometry, Fluorescein-5-isothiocyanate, Cell Proliferation

Abstract

The gene gun technology can not only be employed for efficient transfer of gene vaccines into upper layers of the skin, but also for application of protein antigens. As a tissue rich in professional antigen presenting cells, the skin represents an attractive target for immunizations. In this chapter we present a method for delivery of the model antigen ovalbumin into the skin of mice termed epidermal antigen incorporation and describe in detail how antigen-specific proliferation in draining lymph nodes can be followed by flow cytometry.

Published

2012

50. Protein Antigen Delivery by Gene Gun-Mediated Epidermal Antigen Incorporation (EAI)

Author

Uwe Ritter, Richard Weiss, Josef Thalhamer, and Sandra Scheiblhofer

Subjects

integumentary system, biology, medicine.diagnostic_test, Cell growth, Chemistry, Biolistics, Molecular biology, Gene gun, Flow cytometry, Ovalbumin, Antigen, biology.protein, medicine, Lymph, Antigen-presenting cell

Abstract

The gene gun technology can not only be employed for efficient transfer of gene vaccines into upper layers of the skin, but also for application of protein antigens. As a tissue rich in professional antigen presenting cells, the skin represents an attractive target for immunizations. In this chapter we present a method for delivery of the model antigen ovalbumin into the skin of mice termed epidermal antigen incorporation and describe in detail how antigen-specific proliferation in draining lymph nodes can be followed by flow cytometry.

Published

2012