Monica Vilhelmsson scite author profile

The human cathelicidin LL-37 has been shown to be involved in the barrier function of the innate immunity, being released from specific cells upon challenge and exerting immunomodulatory effects. We here demonstrate that LL-37 affects immature dendritic cells, derived from human peripheral blood monocytes (MDDC). LL-37 is internalized by MDDC with subsequent localization primarily in the cytoplasmic compartment. However, LL-37 could also be detected in the nuclei of MDDC, suggesting that LL-37 may be transported into the nucleus. The uptake of LL-37 is dose, time and energy dependent, indicating that the observed internalization process involves an endocytic pathway. Incubation of immature MDDC with LL-37 caused phenotypic changes, characterized by an increased expression of the antigen-presenting molecule HLA-DR, and the costimulatory molecule CD86. Taken together, these findings suggest that LL-37 released upon triggering of the innate immunity, may affect cellular adaptive immunity through an interaction with immature dendritic cells.

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Cross‐reactivity among fungal allergens: a clinically relevant phenomenon?

Crameri¹,

Zeller²,

Glaser³

et al. 2009

Mycoses

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SummaryAtopic patients suffering from allergic asthma, allergic rhinitis, or atopic eczema often have detectable levels of serum IgE antibodies to fungi. Although the association between fungal sensitisation and different forms of allergic diseases, including allergic asthma and life-threatening allergic bronchopulmonary aspergillosis, is well established, the clinical relevance of cross-reactivity among different fungal species remains largely unknown. Recent progress in molecular cloning of fungal allergens and the availability of more than 40 completely sequenced fungal genomes facilitates characterisation, cloning, and production of highly pure recombinant allergens, identification of homologous and orthologous allergens widespread among the fungal kingdom, in silico prediction, and experimental in vitro and in vivo verification of crossreactivity between homologous pan-allergens. These studies indicate that crossreactivity is an important component of fungal sensitisation.

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Immunoglobulin-E-Mediated Reactivity to Self Antigens: A Controversial Issue

Zeller¹,

Glaser²,

Vilhelmsson

et al. 2007

Int Arch Allergy Immunol

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Immunoglobulin E (IgE) reactivity to self antigens is well established in vitro by ELISA, inhibition ELISA, Western blot analyses and T cell proliferation experiments. In vivo, IgE-binding self antigens are able to elicit strong type I reactions in sensitized individuals and, in the case of human manganese superoxide dismutase, to elicit eczematous reactions on healthy skin areas of patients suffering from atopic eczema. The reactions against self antigens sharing structural homology with environmental allergens can be plausibly explained by molecular mimicry between common B cell epitopes. For the second class of IgE-binding self antigens without sequence homology to known allergens, it is still unclear if the structures are able to induce a B cell switch to IgE production, or if the reactivity is due to sequence similarity shared with not yet detected environmental allergens. However, in all cases, cross-reactivity is never complete, indicating either a lower affinity of IgE antibodies to self allergens than to the homologous environmental allergens or the presence of additional B cell epitopes on the surface of the environmental allergens, or both. Increasing evidence shows that self allergens could play a decisive role in the exacerbation of long-lasting atopic diseases. However, the only observation supporting a clinical role of IgE-mediated autoreactivity is confined to the fact that IgE levels against self antigens correlate with disease severity.

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Mutational analysis of amino acid residues involved in IgE-binding to the Malassezia sympodialis allergen Mala s 11

Vilhelmsson

Glaser²,

Martinez

et al. 2008

Molecular Immunology

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