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The Journal of Immunology, Vol 145, Issue 1 233-237, Copyright © 1990 by American Association of Immunologists

ARTICLES

Activation of the alternative pathway of complement by twelve different rabbit-mouse chimeric transfectoma IgA isotypes

RD Schneiderman, TF Lint and KL Knight
Department of Microbiology and Immunology, University of Illinois, Chicago 60680.

Previous experiments have resulted in the identification and cloning of 13 nonallelic genes encoding the constant region of rabbit IgA H chains. The genes, C alpha 1 to C alpha 13, were each cloned into an expression vector containing the VDJ gene of a dansyl (DNS)-binding murine hybridoma and the constructs were then transfected into SP2/0 cells that were producing murine kappa-L chains from the DNS-binding hybridoma. Of the 13 resulting transfectomas, 12 were shown, by ELISA, to secrete DNS-binding chimeric rabbit-mouse IgA molecules. These transfectoma antibodies, representing 12 different isotypes, are of high affinity and provide a unique source of Ag-specific IgA for comparison of the functions of the multiple IgA isotypes. One such function for antibodies is activation of C by either the classical or alternative pathway. We have used the DNS-binding IgA transfectoma antibodies in C assays based on binding of rabbit C3 to IgA-Ag complexes in an ELISA. The results demonstrated that all 12 IgA isotypes are capable of activating C by the alternative pathway but that none can activate C by the classical pathway. Control experiments demonstrated that activation was hapten dependent and was not caused by endotoxin contamination. These data demonstrate that Ag-specific IgA molecules, unmodified by heat or chemical aggregation, activate C by the alternative pathway but not by the classical pathway.


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