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1.
J Immunol ; 167(9): 5185-92, 2001 Nov 01.
Article in English | MEDLINE | ID: mdl-11673531

ABSTRACT

Local production of secretory (S)IgA provides adaptive immunologic protection of mucosal surfaces, but SIgA is also protective when administered passively, such as in breast milk. Therefore, SIgA is a potential candidate for therapeutic administration, but its complex structure with four different polypeptide chains produced by two distinct cell types complicates recombinant production. The J chain is critical in the structure of SIgA because it is required for efficient polymerization of IgA and for the affinity of such polymers to the secretory component (SC)/polymeric (p)IgR. To better understand the role of the J chain in SIgA production, we have generated various mutant forms of the human J chain and analyzed the function of these mutants when coexpressed with IgA. We found that the C terminus of the J chain was not required for the formation of IgA polymers, but was essential for the binding of pIgA to SC. Likewise, we found that two of the intrachain disulfide bridges (Cys(13):Cys(101) and Cys(109):Cys(134)) were also required for the binding of pIgA to SC but, interestingly, not for IgA polymerization. Conversely, the last intrachain disulfide bridge (Cys(72):Cys(92)) was not essential for either of these two J chain functions. Finally, we demonstrated that the presence of only Cys(15) or Cys(69) was sufficient to support polymerization of IgA, but that these polymers were mostly noncovalently stabilized. Nevertheless, these polymers bound free SC with nearly the same affinity as pIgA containing wild-type J chain, but were transcytosed by pIgR-expressing polarized epithelial cells at a reduced efficiency.


Subject(s)
Immunoglobulin A/metabolism , Immunoglobulin J-Chains/physiology , Receptors, Polymeric Immunoglobulin/physiology , Animals , Biological Transport , CHO Cells , Cricetinae , Dogs , Epithelium/metabolism , Immunoglobulin J-Chains/chemistry , Secretory Component/metabolism
2.
Scand J Immunol ; 52(3): 240-8, 2000 Sep.
Article in English | MEDLINE | ID: mdl-10972899

ABSTRACT

The joining (J) chain is a small polypeptide, expressed by mucosal and glandular plasma cells, which regulates polymer formation of immunoglobulin (Ig)A and IgM. J-chain incorporation into polymeric IgA (pIgA, mainly dimers) and pentameric IgM endows these antibodies with several salient features. First, a high valency of antigen-binding sites, which makes them suitable for agglutinating bacteria and viruses; little or no complement-activating potential, which allows them to operate in a noninflammatory fashion; and, most importantly, only J-chain-containing polymers show high affinity for the polymeric Ig receptor (pIgR), also known as transmembrane secretory component (SC). This epithelial glycoprotein mediates active external transfer of pIgA and pentameric IgM to exocrine secretions. Thus, secretory IgA (SIgA) and SIgM, as well as free SC, are generated by endoproteolytic cleavage of the pIgR extracellular domain. The secretory antibodies form the 'first line' of defence against pathogens and noxious substances that favour the mucosae as their portal of entry. The J chain is involved in creating the binding site for pIgR/SC in the Ig polymers, not only by determining the polymeric quaternary structure but apparently also by interacting directly with the receptor protein. Therefore, both the J chain and the pIgR/SC are key proteins in secretory immunity.


Subject(s)
Immunoglobulin A, Secretory/immunology , Immunoglobulin J-Chains/immunology , Immunoglobulin M/immunology , Amino Acid Motifs , Amino Acid Sequence , Animals , Binding Sites , Biopolymers , Chickens , Dimerization , Humans , Immunoglobulin A, Secretory/biosynthesis , Immunoglobulin M/biosynthesis , Macromolecular Substances , Mice , Mice, Knockout , Models, Molecular , Molecular Sequence Data , Mutation , Protein Conformation , Receptors, Polymeric Immunoglobulin/immunology , Secretory Component/immunology , Secretory Component/physiology , Sequence Alignment , Sequence Homology, Amino Acid , Species Specificity
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