A common mechanism for the synthesis of membrane and secreted immunoglobulin α , γ and μ chains

Immunoglobulins serve as both secreted effector antibodies and antigen receptors bound to the membrane of lymphocytes. Each newly generated B lymphocyte expresses membrane IgM and subsequently co-expresses membrane IgM and membrane IgD. Antigen-driven clonal proliferation is accompanied by further d...

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Bibliographic Details
Published in:Nature (London) 1982-07, Vol.298 (5869), p.77-79
Main Authors: Cushley, W, Coupar, B. E. H, Mickelson, C. A, Williamson, A. R
Format: Article
Language:English
Subjects:
Amino Acid Sequence
B-Lymphocytes
Cell Line
Cell Membrane - immunology
Humanities and Social Sciences
Humans
Immunoglobulin alpha-Chains - genetics
Immunoglobulin gamma-Chains - genetics
Immunoglobulin Heavy Chains - genetics
Immunoglobulin mu-Chains - genetics
letter
Molecular Weight
multidisciplinary
Oligosaccharides - analysis
RNA, Messenger - genetics
Science
Science (multidisciplinary)
Transcription, Genetic
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Summary:Immunoglobulins serve as both secreted effector antibodies and antigen receptors bound to the membrane of lymphocytes. Each newly generated B lymphocyte expresses membrane IgM and subsequently co-expresses membrane IgM and membrane IgD. Antigen-driven clonal proliferation is accompanied by further differentiation with the generation of B lymphocytes expressing, in membrane-bound form, other classes and subclasses of immunoglobulin 1 . Such memory cells are apparently capable of responding to antigen to generate further clones of cells secreting antibodies of particular classes and subclasses. The mechanism by which IgM functions as both a membrane-bound and a secreted immunoglobulin has been determined for both murine and human systems 2–4 . The difference between the two forms of IgM is entirely at the C-terminus. The μ s (secreted) chain has a hydrophilic peptide additional to the Cμ4 domain and the μ m (membrane-bound) chain has a hydrophobic peptide replacing the hydrophilic C-terminal peptide of the μ s chain 2–4 . The μ s and μ m chains are translated from distinct mRNA molecules that are generated by alternative splicing and/or termination points of transcripts from a single rearranged μ gene 5,6 . Recent evidence supports the existence of a similar mechanism for the generation of δ s and δ m chains 7–9 . Structurally different γ m and γ s chains have been observed in human, mouse and chicken cells 10–12 . The present study further distinguishes between γ m and γ s chains and characterizes the mRNA molecules encoding them in human cells. We have also characterized α m and α s chains in a human cell. The data reported here, together with other recent findings, suggest a common mechanism for the generation of membrane and secreted forms of α , γ and μ , chains.
ISSN:0028-0836
1476-4687
DOI:10.1038/298077a0