H.P.D. Fijten scite author profile

Type I allergic reactions occur by immediate release of anaphylactogenic mediators due to cross‐linking of IgE bound to the high‐affinity FcϵRI on the surface of effector cells ofsensitized individuals after allergen exposure. IgE‐mediated hypersensitivity against normally innocuous environmental antigens is of clinical importance because of an increasing incidence of asthma and severe atopic diseases causing raising health care burdens to the society. A vast variety of different molecular structures has been shown to be able to induce hypersensitivity reactions. However, the high structural homology between phylogenetically conserved allergenic proteins present in different, apparently unrelated sources of exposure seems to play an important role in IgE‐mediated poly‐sensitization. These allergen families, formally termed pan‐allergens, represent proteins sharing a high degree of sequence homology. Here we report cloning, production and serological investigations of a new pan‐allergen family, the cyclophilins, found to be cross‐reactive across species including humans. IgE‐mediated cross‐reactivity against autoantigens may contribute to perpetuation of severe atopic disorders even in the absence of exogenous allergen exposure. The molecular definition of pan‐allergen families may substantially contribute to reduce the number of structures needed for diagnosis and therapy of allergic diseases based on highly pure, standardized recombinant allergens.

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A cross sectional study on Dutch layer farms to investigate the prevalence and potential risk factors for different Chlamydia species

Heijne

Goot

Fijten

et al. 2018

PLoS ONE

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In poultry several Chlamydia species have been detected, but Chlamydia psittaci and Chlamydia gallinacea appear to be most prevalent and important. Chlamydia psittaci is a well-known zoonosis and is considered to be a pathogen of poultry. Chlamydia gallinacea has been described more recently. Its avian pathogenicity and zoonotic potential have to be further elucidated. Within the Netherlands no data were available on the presence of Chlamydia on poultry farms. As part of a surveillance programme for zoonotic pathogens in farm animals, we investigated pooled faecal samples from 151 randomly selected layer farms. On a voluntary base, 69 farmers, family members or farm workers from these 151 farms submitted a throat swab. All samples were tested with a generic 23S Chlamydiaceae PCR followed by a species specific PCR for C. avium, C. gallinacea and C. psittaci. C. avium and psittaci DNA was not detected at any of the farms. At 71 farms the positive result could be confirmed as C. gallinacea. Variables significantly associated with the presence of C. gallinacea in a final multivariable model were ‘age of hens,’ ‘use of bedding material’ and ‘the presence of horses.’ The presence of C. gallinacea was associated with neither clinical signs, varying from respiratory symptoms, nasal and ocular discharges to diarrhoea, nor with a higher mortality rate the day before the visit. All throat swabs from farmers, family members or farm workers tested negative for Chlamydia DNA, giving no further indication for possible bird-to-human (or human-to-bird) transmission.

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Comparison of the Crystal Structures of the Human Manganese Superoxide Dismutase and the Homologous Aspergillus fumigatus Allergen at 2-Å Resolution

Flückiger¹,

Mittl

Scapozza

et al. 2002

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Manganese superoxide dismutase (MnSOD) of Aspergillus fumigatus, a fungus involved in many pulmonary complications, has been identified as IgE-binding protein. It has been shown also that MnSODs from other organisms, including human, are recognized by IgE Abs from individuals sensitized to A. fumigatus MnSOD. Comparison of the fungal and the human crystal structure should allow the identification of structural similarities responsible for IgE-mediated cross-reactivity. The three-dimensional structure of A. fumigatus MnSOD has been determined at 2-Å resolution by x-ray diffraction analysis. Crystals belonged to space group P212121 with unit cell dimensions of a = 65.88 Å, b = 98.7 Å, and c = 139.28 Å. The structure was solved by molecular replacement using the structure of the human MnSOD as a search model. The final refined model included four chains of 199–200 amino acids, four manganese ions, and 745 water molecules, with a crystallographic R-factor of 19.4% and a free R-factor of 23.3%. Like MnSODs of other eukaryotic organisms, A. fumigatus MnSOD forms a homotetramer with the manganese ions coordinated by three histidines, one aspartic acid, and one water molecule. The fungal and the human MnSOD share high similarity on the level of both primary and tertiary structure. We identified conserved amino acids that are solvent exposed in the fungal and the human crystal structure and are therefore potentially involved in IgE-mediated cross-reactivity.

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H.P.D. Fijten

Passive immunization of guinea pigs with llama single-domain antibody fragments against foot-and-mouth disease

Prolonged in vivo residence times of llama single-domain antibody fragments in pigs by binding to porcine immunoglobulins

Cyclophilins, a new family of cross-reactive allergens

A cross sectional study on Dutch layer farms to investigate the prevalence and potential risk factors for different Chlamydia species

Comparison of the Crystal Structures of the Human Manganese Superoxide Dismutase and the Homologous Aspergillus fumigatus Allergen at 2-Å Resolution

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