IgD-secreting murine plasmacytomas: identification and partial characterization of two IgD myeloma proteins.

Abstract

We have used an immunofluorescence inhibition assay to identify 2 BALB/c plasmacytomas, TEPC-1017 and TEPC-1033, that secrete large quantitites of IgD. Both TEPC-1017 and TEPC-1033 myeloma proteins bound to anti-kappa as well as hybridoma and heterologous anti-delta antibodies, but not to anti-mu, gamma, alpha, or lambda antibodies. Both myeloma proteins were purified by (NH4)2SO4 precipitation, ion exchange chromatography, gel filtration, and Staphylococcus aureus Protein A absorption. These IgD kappa myeloma proteins were used to prepare affinity purified rabbit antibodies to delta-chain and the TEPC-1017 and TEPC-1033 idiotypes. Native TEPC-1017 and TEPC-1033 both had mobilities between those of mouse IgA kappa dimers and trimers when analyzed by polyacrylamide gradient gel electrophoresis. Both IgD myeloma proteins broke down under mild reducing conditions into subunits with electrophoretic mobilities slightly slower than those of an IgA kappa monomer. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of reduced TEPC-1017 and TEPC-1033 demonstrated kappa-chains and heavy chains that co-migrated with alpha chain. These data suggested that secreted IgD contains 2 delta 2 kappa 2 subunits that are linked by an easily reducible disulfide bond. The kappa-chains of IgD secreted by TEPC-1017 and TEPC-1033 have apparent m.w. of approximately 63,000 daltons, whereas the apparent m.w. of intracytoplasmic delta-chain, intracytoplasmic delta-chain synthesized in the presence of tunicamycin, and the cellfree translation product of TEPC-1017 delta-chain mRNA are 54,000, 43,000, and 44,000 daltons, respectively. This is compatible with the interpretation that the delta-chain peptide has a leader sequence and is N-glycosylated during or shortly after peptide synthesis and is glycosylated further shortly before IgD secretion.