Michael Breitenbach

Isolation and Characterization of Messenger RNA from Male Inflorescences and Pollen of the White Birch (Betula Verrucosa)

A glycoprotein with a molecular weight (MW) of 17 kilodaltons (kD), Bet v I, represents the major allergen of the white birch (Betula verrucosa, BV) and plays an important role in tree-pollen-induced type I allergic reactions. In order to characterize the major and also some minor allergens of BV, we investigated the IgE-binding properties of these allergens using immunoblot techniques. Normal and patients sera were employed for this study. Furthermore, RNA from male inflorescences and from pollen of BV were isolated and purified by affinity chromatography on oligo-dT-cellulose. Poly(A)+-mRNA thus obtained was translated in vitro in a cell-free wheat germ system and the proteins synthesized were separated by SDS-PAGE and transferred to nitrocellulose. The blots were incubated with normal human sera and with sera from patients allergic to birch pollen. Bound IgE antibodies were detected with 125I-labeled anti-IgE. We observed major IgE binding to a protein of an MW of 12.5 kD, and little IgE binding to a 17-kD protein, presumably Bet v I. Comparing the products of in vitro translation from mRNA preparations of mature pollen and of male inflorescences collected in June, October and February, little seasonal variations could be observed. As the in vitro translation system does not glycosylate proteins, our results show that the majority of IgE in patients sera is not directed against the carbohydrate moieties of these allergens.

The Importance of Recombinant Allergens for Diagnosis and Therapy of IgE–Mediated Allergies

In the past 10 years, a considerable number of cDNAs coding for allergens have been isolated and expressed. Intensive investigations showed that recombinant allergens and their respective natural counterparts possess comparable properties with respect to structure, function and interaction with the immune system. Recent studies documented that in vitro as well as in vivo diagnosis of IgE–mediated allergic diseases can be successfully improved by the application of recombinant allergens. In addition, new strategies for a safer specific immunotherapy (SIT) have been developed based on the knowledge of the primary structures of allergens. Naturally occurring isoforms of allergens as well as recombinant allergens with modified amino acid sequences show very low IgE binding capacity but strong T cell–stimulatory activity and represent possible candidates. In case of Bet v 1, the major birch pollen allergen, isoforms d, g and l and a Bet v 1a mutant, produced by site–directed mutagenesis resulting in 6 amino acid exchanges, fulfilled the above mentioned criteria. In a third approach, two adjacent peptides covering the entire Bet v 1a sequence were produced in an Escherichia coli expression system. These peptides contained most of the relevant T cell epitopes, but lost their IgE binding capacity and, thus, their ability to activate mast cells and basophils of sensitized patients. Our results suggest that allergen variants (isoforms, mutants, T cell epitope–containing peptides) may be used as ‘hypoallergenic agents’ in SIT.

Unfolding and Double-stranded DNA Binding of the Cold Shock Protein Homologue Cla h 8 from Cladosporium herbarum

The cloning, purification, and biophysical characterization of the first eukaryotic cold shock protein homologue, Cla h 8, expressed as single functional polypeptide is reported here. It was discovered as a minor allergen of the mold Cladosporium herbarum by phage display using a library selectively enriched for IgE-binding proteins. Based on the sequence homology of Cla h 8 with bacterial cold shock proteins (CSPs), a homology-based computer model of the allergen was computed indicating an all-β structure of Cla h 8. This major structural feature was confirmed by CD spectroscopy. Despite the structural similarities with bacterial CSPs, the DNA-binding and unfolding behavior of Cla h 8 exhibited unique and previously undescribed characteristics. High affinities of Cla h 8 for single-stranded DNA as well as for double-stranded DNA corresponding to the human Y-box were detected. The affinity for double-stranded DNA increased significantly with decreasing temperature, which was paralleled by an increase in the β sheet content of the protein. Temperature-dependent fluorescence anisotropy and far-UV CD measurements revealed different unfolding transitions at 28 and at 35.7u2009°C, respectively, indicating a multistate transition, which is uncommon for CSPs. The enhanced affinity for DNA at low temperatures together with the low unfolding transition refer to the functional significance of Cla h 8 at reduced temperatures.