Gabriel Peltre

Traffic-Related Air Pollutants Induce the Release of Allergen-Containing Cytoplasmic Granules from Grass Pollen

Background/Aim: Pollen cytoplasmic granules (PCG) are loaded with allergens. They are released from grass pollen grains following contact with water and can form a respirable allergenic aerosol. On the other hand, the traffic-related air pollutants NO2 and O3 are known to be involved in the current increase in the prevalence of allergic diseases via their adjuvant effects. Our objective was to determine the effects of air pollutants on the release of PCG from Phleum pratense (timothy grass) pollen. Methods:P. pratense pollen was exposed to several concentrations of NO2 and O3. The induced morphological damages were observed by environmental scanning electron microscopy, and the amount of PCG released from the pollen upon contact with water was measured. Results: The percentages of damaged grain were 6.4% in air-treated controls, 15% after treatment with the highest NO2 dose (50 ppm) and 13.5% after exposure to 0.5 ppm O3. In treated samples, a fraction of the grains spontaneously released their PCG. Upon subsequent contact with water, the remaining intact grains released more PCG than pollen exposed to air only. Conclusions: Traffic-related pollutants can trigger the release of allergen-containing granules from grass pollen, and increase the bioavailability of airborne pollen allergens. This is a new mechanism by which air pollution concurs with the current increase in the prevalence of allergic diseases.

Heterogeneity of grass pollen allergens (Dactylis glomerata) recognized by IgE antibodies in human patients sera by a new nitrocellulose immunoprint technique

A new nitrocellulose immunoprint technique has been developed to detect specific antigens or/and allergens present among a heterogeneous solution such as a water-soluble crude extract of a grass pollen (Dactylis glomerata). The antigens are separated by isoelectric focusing (IEF) in an agarose gel and characterized by their isoelectric point (pI). These antigens are transferred and immobilized on a nitrocellulose sheet. They are recognized by the binding of specific antibodies contained in an unfractionated serum to be studied. Finally, the binding of these antibodies is visualized by species- or/and class-specific antibodies themselves labeled by an enzyme or by radioactivity. So one can detect the allergens recognized by the specific serum IgE antibodies and also the other antigens recognized by specific IgG, IgA or IgM antibodies.

Immunochemical detection of egg‐white antigens and allergens in meat products

Background: The purpose of this study was to detect antigens and allergens in egg‐white byproduct ingredients and after their incorporation in processed pork meat pastes. Commercially prepared foods may have potentially allergenic ingredients (egg, milk, soybean, wheat, and peanut) added in processing. Since allergic patients may react to unidentified ingredients, it is important to assess the allergenic potency of these food proteins added during processing. Egg white was chosen as an experimental model, since egg is one of the most prevalent allergens in food hypersensitivity.

Allergy to Bovine â–Lactoglobulin: Specificity of Human IgE Using Cyanogen Bromide–Derived Peptides

Background: Bovine β–Lactoglobulin (Blg) is a major allergen involved in allergy to cows milk proteins. Hydrolyzing Blg did not totally suppress its allergenicity; moreover its immunoreactivity may be increased. The aim of this work was to evaluate the specificity of serum IgE to different fragments of Blg in a group of 19 individuals allergic to cows milk. Methods: This study was performed using both direct and competitive inhibition ELISA involving immobilized native protein or peptides derived from Blg cyanogen bromide cleavage. Results: Analyses of responses to each peptide revealed a large number of epitopes recognized by specific IgE of human allergic sera. However, there were differences in the specific determinants recognized, depending on the serum. Generally, peptides (25–107) and (108–145) retained substantial proportions of the immunoreactivity of the whole protein. Two other peptides, i.e. (8–24) and (146–162), were less recognized but were not inert. Conclusion: The main conclusion is that many epitopes were identified all along the Blg sequence by specific anti–Blg IgE from allergic humans.

Enzyme immunoassay of specific human IgE to purified cows’ milk allergens

An immunometric enzyme immunoassay for specific immunoglobulin E (IgE) against five purified cows’ milk allergens, β‐lactoglobuHn, α‐lactalbumin, bovine serum albumin, lactoferrin and whole casein fraction, has been developed. Allergens were immobilized on microtitration plates. After incubations with sera from allergic patients, specific IgE bound to the plastic were detected using a monoclonal anti‐human IgE antibody labelled with acetylcholinesterase. Quantitative determinations were made by comparison with a dose‐response curve obtained under the same conditions with standard total IgE. A quantification limit of 0.08 IU ml‐1 can thus be obtained with a coefficient of variation of lower than 5%. This allows specific IgE determinations of clinical significance in sera from allergic patients at a dilution of at least 1/10 (i.e. in a few μl of serum) with good precision and reproducibility. The determinations of specific IgE in sera from 11 patients allergic to cows’ milk showed an excellent correlation o...

Effects of birch pollen and traffic particulate matter on Th2 cytokines, immunoglobulin E levels and bronchial hyper-responsiveness in mice.

Background Health effects due to air pollution arizing from motor vehicles are a major public and political concern world‐wide. Epidemiological studies have shown that the manifestations of asthma are increased by air pollution in already affected individuals.

Isotypic Analysis of Grass Pollen-Specific Immunoglobulins in Human Plasma

The specificity and isotypic profile of humoral immune responses to Dactylis glomerata (Cocksfoot) pollen was studied by isoelectric focusing (IEF)-immunoprint analysis using 26 human plasma samples with high levels of Dactylis pollen-specific IgG4 (IgG4+ plasma) and 25 human plasma samples with low levels of specific IgG4 (normal plasma). Over 60 individual protein components in an aqueous pollen extract were separated by IEF and immunoprinted onto nitrocellose (NC). Following plasma incubation, bound IgE, IgG1-4, IgA1, IgA2 and IgM antibodies were detected on separate immunoprints with isotype-specific antibodies. Binding patterns of IgG4 and the majority of IgG1 and IgA2 antibodies in the IgG4+ plasma group very closely paralleled the binding patterns produced by the IgE antibodies from the same plasma and are described as the allergen repertoire. In contrast, IgE, IgG4, IgG1 and IgA2 antibody reactivities to the allergen repertoire were insignificant in the normal plasma group. These results suggest a qualitative, as well as a quantitative relationship between the immune responses which involve these 4 isotypes. Characteristic IgG2 and IgM antibody binding patterns, predominantly to non-allergenic antigens, were shared by the plasma from both groups, while IgG3 and IgA1 antibody binding patterns were highly variable from one plasma to another in both groups. One possible origin of the allergic diseases at the immunoglobulin heavy chain gene level is discussed.

Purification and Characterization of a Major Allergen from Dactylis glomerata Pollen: The Ag Dg1

We have isolated an allergen (Ag Dg1) from Dactylis glomerata pollen which is recognized by the serum of 95% of human patients sensitive to D. glomerata pollen, as has been shown by the nitrocellulose immunoprint technique. After two successive purifications by preparative isoelectric focusing (IEF), Dg1 was characterized as a single band in analytical agarose IEF with a pI of 5.9 and was found to display 3 bands by sodium dodecyl sulfate polyacrylamide gel with the respective molecular weights: 21,000, 31,000 and 33,000 daltons. The high recognition frequency by IgE antibodies of Dg1 in the sera of allergic patients and its ability to trigger histamine release from sensitized human basophils allow to consider that Ag Dg1 is the main major allergen extracted from D. glomerata pollen.

Scanning and transmission electron microscopy related to immunochemical analysis of grass pollen

Abstract The exine stereostructure (scanning electron microscopy) and ultrastructure (transmission electron microscopy) of pollen of seven grass species, is related to the allergens extracted from these pollen grains. The heterogeneity of the allergens was studied by the immunoprint technique and revealed by labelling the binding of grass pollen sensitive patients IgE antibodies. Using patient sera recognizing a very restricted number of allergens, we showed that a group of pollen had a great number of allergens in common (Dactylis, Agrostis, Festuca, Lolium, Holcus) and, in decreasing cross reactivities order, we found Avena and, finally, Zea mays. The tectum stereostructure shows presence of insulae in all pollen grains except in Zea mays which has small isolated spinules. These insulae are separated by very wide and deep interinsular spaces in Avena sativa with connections between insulae. In the remaining species, no connections were seen between the insulae. These observations were in good correlatio...

Characterization of high-molecular-mass allergens in Oilseed rape pollen

Background:Oilseed rape pollen allergies have been previously described as the result of cross-sensitization with various pollens. Recently, several proteins have been identified as oilseed rape allergens. The aim of the present work was the characterization of oilseed rape pollen allergens by two-dimensional (2-D) gel analysis and amino acid microsequencing. Methods: Water extractable proteins from oilseed rape pollen were separated by isoelectrofocusing and then transferred onto a nitrocellulose sheet. Twenty-one human sera from pollen- or mustard-allergic individuals were screened for their reactivity to oilseed rape proteins. Eleven sera possessed IgE which recognized oilseed rape pollen proteins and one serum was selected for further 2-D characterization and amino acid microsequencing of the allergens. Results: The results showed that three molecules from oilseed rape pollen were identified as oilseed rape allergens which have not yet been described. These three proteins were molecules of 70 kD with a pI >8, 40 kD with a pI around 10 and 80 kD with a pI around 5. These proteins displayed identities with the berberine bridge protein, a receptor-like protein kinase and the cobalamin-independent methionine synthetase from Arabidopsis thaliana, respectively. The genes encoding the putative Arabidopsis molecules are located on chromosome 1 (berberine bridge protein) and chromosomes 3 and 4 (receptor-like protein kinases). Conclusion: These results show that certain high-molecular-mass proteins from oilseed rape pollen are allergens.