Abstract
In recent years several groups have shown that isotype switching from IgM to IgG to IgA can affect the affinity and specificity of antibodies sharing identical variable (V) regions. However, whether the same applies to IgE is unknown. In this study we compared the fine specificity of V region-identical IgE and IgA to Cryptococcus neoformans capsular polysaccharide and found that these differed in specificity from each other. The IgE and IgA paratopes were probed by nuclear magnetic resonance spectroscopy with (15)N-labeled peptide mimetics of cryptococcal polysaccharide antigen (Ag). IgE was found to cleave the peptide at a much faster rate than V region-identical IgG subclasses and IgA, consistent with an altered paratope. Both IgE and IgA were opsonic for C. neoformans and protected against infection in mice. In summary, V-region expression in the context of the ϵ constant (C) region results in specificity changes that are greater than observed for comparable IgG subclasses. These results raise the possibility that expression of certain V regions in the context of α and ϵ C regions affects their function and contributes to the special properties of those isotypes.
Highlights
Ig , ␥, and ␣ constant regions can affect Ag specificity, but this is unknown for IgE
In this study we evaluated the opsonic and protective efficacy of V region-identical IgA and IgE to C. neoformans GXM derived from an IgG3 mAb from the 3E5 family by spontaneous isotype switching
Our results indicate that both IgA and IgE can protect against C. neoformans and that the IgE C region can affect Ag specificity
Summary
Ig , ␥, and ␣ constant regions can affect Ag specificity, but this is unknown for IgE. In the past two decades, studies from at least seven independent laboratories have established that the C region can influence the specificity and affinity of certain antibodies (Abs) [5,6,7,8,9,10,11,12] This effect has been reported for IgM, IgG, and IgA isotypes, but IgE has not yet been explored. In this study we evaluated the opsonic and protective efficacy of V region-identical IgA and IgE to C. neoformans GXM derived from an IgG3 mAb from the 3E5 family by spontaneous isotype switching. Our results indicate that both IgA and IgE can protect against C. neoformans (both have higher rates of peptide cleavage than their IgG isotypes) and that the IgE C region can affect Ag specificity
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