Cellular origins of human polymeric and monomeric IgA: enumeration of single cells secreting polymeric IgA1 and IgA2 in peripheral blood, bone marrow, spleen, gingiva and synovial tissue

Cellular origins of human polymeric and monomeric IgA: enumeration of single cells secreting polymeric IgA1 and IgA2 in peripheral blood, bone marrow, spleen, gingiva and synovial tissue

SUMMARY Using modified ELISA and spot‐ELISA, which permit the parallel determination of heavy chain subclass and the presence of covalently linked J chain, we analysed IgA found in cell culture supernatants or secreted by individual cells from peripheral blood, spleen, bone marrow, gingiva and synov...

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Bibliographic Details
Published in:Clinical and experimental immunology Vol. 85; no. 2; pp. 341 - 348
Main Authors: TARKOWSKI, A., MOLDOVEANU, Z., KOOPMAN, W. J., RADL, J., HAAIJMAN, J. J., MESTECKY, J.
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Publishing Ltd 01-08-1991
Blackwell
Subjects:
Adult
Antibodies, immunoglobulins
Biological and medical sciences
Bone Marrow - immunology
Bone Marrow - metabolism
Bone Marrow Cells
Fundamental and applied biological sciences. Psychology
Fundamental immunology
Gingiva - cytology
Gingiva - immunology
Gingiva - metabolism
Humans
IgA1
IgA2
IgA‐secreting cells
Immunoglobulin A - metabolism
Immunoglobulin J-Chains - analysis
Lymphocytes - metabolism
Molecular immunology
monomeric IgA
Pokeweed Mitogens - pharmacology
polymeric IgA
Spleen - cytology
Spleen - immunology
Spleen - metabolism
Structure
Synovial Membrane - cytology
Synovial Membrane - immunology
Synovial Membrane - metabolism
Human
Spleen
Molecular form
IgA
Immunoglobulins
Cell supernatant
Secretion
Secretory cell
Isotype
Polymer
Synovial membrane
Bone marrow
Gingiva
Monomer
Cell origin
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Summary:SUMMARY Using modified ELISA and spot‐ELISA, which permit the parallel determination of heavy chain subclass and the presence of covalently linked J chain, we analysed IgA found in cell culture supernatants or secreted by individual cells from peripheral blood, spleen, bone marrow, gingiva and synovial tissue, with respect to its polymeric or monomeric IgA form (plgA, mlgA) and IgA I or IgA2 subclass. The ELISA for determination of J chain in tissue culture supcrnalants was specific and highly sensitive (detection limit in pg). The results demonstrated that IgA1‐producing cells predominated in the tissues examined, and that J chain could be detected in association with the majority of IgA1 and lgA2 secreted by individual cells. With respect to the frequency of cells secreting polymeric, J chain‐containing IgA, only 20‐30% of cells from the bone marrow were engaged in the synthesis of pIgA. In other tissues the frequency of cells secreting pIgA1 and plgA2 was considerably higher. Peripheral blood mononuclear cells secreting pIgA2 were easily inducible during stimulation with T cell‐dependent pokeweed mitogen, whereas Epstein‐Barr virus‐transformed cells secreted preferentially mIgA1. When the frequencies of plgA‐, pIgA 1 ‐ or pIgA 2‐secret ing cells (determined by spot‐ELISA technique) from different tissues were correlated with the proportion of pIgA EG mIgA (and IgA subclasses) secreted in tissue culture supernatants. data obtained suggest that many individual IgA‐producing cells could be engaged in simultaneous secretion of mIgA and pIgA.
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ISSN:0009-9104
1365-2249
DOI:10.1111/j.1365-2249.1991.tb05730.x