| 1. |
- Garbani, M., et al.
(author)
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Allergen-loaded strontium-doped hydroxyapatite spheres improve allergen-specific immunotherapy in mice
- 2017
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In: Allergy. European Journal of Allergy and Clinical Immunology. - : Wiley. - 0105-4538 .- 1398-9995. ; 72:4, s. 570-578
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Journal article (peer-reviewed)abstract
- BackgroundImmunomodulatory interventions play a key role in the treatment of infections and cancer as well as allergic diseases. Adjuvants such as micro- and nanoparticles are often added to immunomodulatory therapies to enhance the triggered immune response. Here, we report the immunological assessment of novel and economically manufactured microparticle adjuvants, namely strontium-doped hydroxyapatite porous spheres (SHAS), which we suggest for the use as adjuvant and carrier in allergen-specific immunotherapy (ASIT).Methods and ResultsScanning electron microscopy revealed that the synthesis procedure developed for the production of SHAS results in a highly homogeneous population of spheres. SHAS bound and released proteins such as ovalbumin (OVA) or the major cat allergen Fel d 1. SHAS-OVA were taken up by human monocyte-derived dendritic cells (mdDCs) and murine DCs and did not have any necrotic or apoptotic effects even at high densities. In a murine model of ASIT for allergic asthmatic inflammation we found that OVA released from subcutaneously injected SHAS-OVA led to a sustained stimulation of both CD4+ and CD8+ T-cells. ASIT with SHAS-OVA as compared to soluble OVA resulted in similar humoral responses but in a higher efficacy as assessed by symptom scoring.ConclusionWe conclude that SHAS may constitute a suitable carrier and adjuvant for ASIT with great potential due to its unique protein-binding properties.
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| 2. |
- Nilsson, Ola B., et al.
(author)
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In vitro evolution of allergy vaccine candidates, with maintained structure, but reduced B cell and T cell activation capacity
- 2011
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In: PLOS ONE. - : Public Library of Science (PLoS). - 1932-6203. ; 6
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Journal article (peer-reviewed)abstract
- Allergy and asthma to cat (Felis domesticus) affects about 10% of the population in affluent countries. Immediate allergic symptoms are primarily mediated via IgE antibodies binding to B cell epitopes, whereas late phase inflammatory reactions are mediated via activated T cell recognition of allergen-specific T cell epitopes. Allergen-specific immunotherapy relieves symptoms and is the only treatment inducing a long-lasting protection by induction of protective immune responses. The aim of this study was to produce an allergy vaccine designed with the combined features of attenuated T cell activation, reduced anaphylactic properties, retained molecular integrity and induction of efficient IgE blocking IgG antibodies for safer and efficacious treatment of patients with allergy and asthma to cat. The template gene coding for rFel d 1 was used to introduce random mutations, which was subsequently expressed in large phage libraries. Despite accumulated mutations by up to 7 rounds of iterative error-prone PCR and biopanning, surface topology and structure was essentially maintained using IgE-antibodies from cat allergic patients for phage enrichment. Four candidates were isolated, displaying similar or lower IgE binding, reduced anaphylactic activity as measured by their capacity to induce basophil degranulation and, importantly, a significantly lower T cell reactivity in lymphoproliferative assays compared to the original rFel d 1. In addition, all mutants showed ability to induce blocking antibodies in immunized mice.The approach presented here provides a straightforward procedure to generate a novel type of allergy vaccines for safer and efficacious treatment of allergic patients.
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| 3. |
- Vilhelmsson, Monica, et al.
(author)
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Mutational analysis of amino acid residues involved in IgE-binding to the Malassezia sympodialis allergen Mala s 11
- 2008
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In: Molecular Immunology. - : Elsevier BV. - 0161-5890 .- 1872-9142. ; 46:2, s. 294-303
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Journal article (peer-reviewed)abstract
- The yeast Malassezia sympodialis, which is an integral part of the normal cutaneous flora, has been shown to elicit specific IgE- and T-cell reactivity in atopic eczema (AE) patients. The M. sympodialis allergen Mala s 11 has a high degree of amino acid sequence homology to manganese superoxide dismutase (MnSOD) from Homo sapiens (50%) and Aspergillus fumigatus (56%). Humoral and cell-mediated cross-reactivity between MnSOD from H. sapiens and A. fumigatus has been demonstrated. Taken together with the recent finding that human MnSOD (hMnSOD) can act as an autoallergen in AE patients sensitised to M. sympodialis, we hypothesized that cross-reactivity could also occur between hMnSOD and Mala s 11, endogenous hMnSOD thus being capable of stimulating an immune response through molecular mimicry. Herein we demonstrate that recombinant Mala s 11 (rMala s 11) is able to inhibit IgE-binding to recombinant hMnSOD and vice versa, indicating that these two homologues share common IgE-binding epitopes and providing an explanation at a molecular level for the autoreactivity to hMnSOD observed in AE patients sensitised to Mala s 11. Using molecular modelling and mapping of identical amino acids exposed on the surface of both Mala s 11 and hMnSCE) we identified four regions each composed of 4-5 residues which are potentially involved in IgE-mediated cross-reactivity. Mutated rMala s 11 molecules were produced in which these residues were altered. Native-like folding was verified by enzymatic activity tests and circular dichroism. The rMala s 11 mutants displayed lower IgE-binding in comparison to wild-type rMala s 11 using plasma from AE patients. In particular, mutation of the residues E29, P30, E122 and K125 lowered the IgE-binding to Mala s 11. The results of this study provide new insights in the molecular basis underlying the cross-reactivity between Mala s 11 and hMnSOD.
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