Your search keyword '"Mullany LK"' showing total 3 results

1. Variable binding affinities for allergen suggest a 'selective competition' among immunoglobulins in atopic and non-atopic humans.

Author

Jackola DR, Pierson-Mullany LK, Liebeler CL, Blumenthal MN, and Rosenberg A

Subjects

Adolescent, Adult, Antibody Affinity, Antigen-Antibody Reactions, Antigens, Plant, Binding, Competitive, Child, Female, Humans, Immunoglobulin E immunology, Immunoglobulin G analysis, Immunoglobulin G classification, Immunoglobulin Isotypes analysis, Male, Middle Aged, Plant Proteins immunology, Receptors, Antigen, B-Cell physiology, Allergens immunology, Hypersensitivity immunology

Abstract

Atopy is a persistent, aberrant humoral response to certain classes of proteins (allergens) characterized by the presence of allergen-specific IgE. Yet, in both atopic and non-atopic individuals, allergen-specific responses involving the IgA and IgG subclasses have been observed, which evidence does not support models suggesting inherited differences in sensitivity to certain protein classes. Using the major ragweed component Amb a 1 as a model allergen, we assessed the humoral responses in three groups of unrelated donors: (A) atopic, ragweed sensitive; (B) atopic, but not ragweed sensitive; (C) non-atopic. As expected, Amb a 1-specific IgE was present in group A only. However, there were essentially no differences in the relative proportions of Amb a 1-specific IgA(1,2) and IgG(1-4) among the groups. We also determined the Amb a 1 binding affinities for IgG(1) and IgG(4) in the three groups, and compared these to Amb a 1-specific IgE binding affinities in group A. Group A donors' Amb a 1-IgE had extremely high affinities (10(8) to 10(11)M(-1)), but their Amb a 1-IgG(1) and Amb a 1-IgG(4) affinities were significantly lower (10(7) to 10(10)M(-1)). The average IgG(4) binding affinities in groups B and C were slightly higher than that of IgG(4) in group A, although not statistically significant. However, the IgG(1) affinity for Amb a 1 among group C, non-atopic donors was significantly elevated and comparable to the IgE affinity observed in group A, ragweed atopics. Inhibition studies with allergen-specific IgE-free serum showed that all isotypes recognized the major epitopes seen by IgE. These results suggest that there may be a "selective competition" among isotypes for allergens that is driven by the ability to produce high affinity, allergen-specific immunoglobulins.

Published

2002

2. Evidence of an affinity threshold for IgE-allergen binding in the percutaneous skin test reaction.

Author

Pierson-Mullany LK, Jackola DR, Blumenthal MN, and Rosenberg A

Subjects

Antibody Specificity, Antigens, Dermatophagoides, Antigens, Plant, Binding Sites, Antibody immunology, Binding, Competitive, Differential Threshold, Glycoproteins immunology, Humans, Osmolar Concentration, Plant Proteins immunology, Allergens immunology, Antigen-Antibody Reactions physiology, Immunoglobulin E immunology, Skin Tests

Abstract

Background: Atopy is an aberrant immune response involving allergen-specific IgE production, though serum IgE concentration is not an entirely reliable diagnostic tool, particularly for epidemiological and genetic studies. There is no clear correlation between IgE and other indicators of atopy such as skin prick tests (SPT)s, and physiological associations are difficult to justify in cases with detectable IgE but negative SPT results., Objective: IgE reflects the number of molecules available to produce an atopic response, but the degree of the response is determined by the binding strength (affinity) between receptor-bound IgE and the allergen. We sought to determine if there was an association between binding affinity and SPT results in people with histories of atopy., Methods: Standard SPTs (whole allergen extracts) were administered to people with histories of sensitivities to ragweed and house dust mite. The concentrations and affinities of serum allergen-specific IgEs were determined using the purified allergens Amb a 1 and Der p 1., Results: There was a positive correlation between weal area and allergen-specific IgE among SPT-positive donors. However, for those individuals with detectable amounts of allergen-specific IgE, there was considerable overlap of IgE values between SPT-positive and -negative groups. Among sensitized donors, IgE-allergen interactions were characterized by two or three specific reactions of very high affinity (K(A) range 10(8) -10(11) M). Negative SPT reactions were associated with lowered IgE binding affinities to major allergens. This delimited two groups with atopic disorders: specific IgE(+)/ SPT(+) and specific IgE(+)/SPT(-)., Conclusion: The product of antibody affinity and concentration, which we define as antibody capacity (CAP = K(A) x IgE), is more informative with regard to describing allergen sensitivity than antibody concentration alone. Antibody binding capacity provides physiological evidence of atopy in some subjects who do not test positively by common methods and suggests an affinity threshold to produce a positive SPT reaction.

Published

2002

3. Characterization of polyclonal allergen-specific IgE responses by affinity distributions.

Author

Pierson-Mullany LK, Jackola DR, Blumenthal MN, and Rosenberg A

Subjects

Adolescent, Adult, Aged, Amino Acid Sequence, Antibody Affinity, Antigens, Dermatophagoides, Asteraceae immunology, Child, Female, Humans, Immunodominant Epitopes, Male, Middle Aged, Molecular Sequence Data, Allergens immunology, Glycoproteins immunology, Immunoglobulin E immunology

Abstract

Polyclonal IgE responses have been previously characterized by allergen-specific antibody levels and by identification of amino acid sequences related to immunodominant epitopes. However, the binding affinities related to these antibody families are not well known. Using sera from donors with known sensitivities to ragweed or house dust mite allergens, we studied the binding reactions between the purified allergens Amb a 1 and Der p 1 and allergen-specific IgE's by determining affinity distribution functions. The distributions of binding affinities only exhibited a few dominant reactions indicated by peaks in an affinity distribution display. In all the donors tested, there were two dominant peaks and in 2/3 of the cases there was a third peak for both Amb a 1 and Der p 1. We further characterized the polyclonal interactions between IgE and Der p 1 by inhibiting the specific binding of IgE using peptide fragments known to be constituents of Der p 1 epitopes. Each peptide inhibited only a single peak in the affinity distributions. It would appear that the peaks in the affinity distribution represent antibodies directed to single epitopes. These results suggest that in our atopic population the response is surprisingly uniform. The bulk of the IgE response (70-80%) is of high affinity (10(8)-10(11) M(-1)) and directed towards a few epitopes. The relative affinities towards epitopes seem to be determined by the structure of the epitope and not variations of individuals' immune responses.

Published

2000