Junctional region sequences of T-cell receptor beta-chain genes expressed by pathogenic anti-DNA autoantibody-inducing helper T cells from lupus mice: possible selection by cationic autoantigens.

Abstract

We rescued from the spleens of 10 (SWR x NZB)F1 (SNF1) mice with lupus nephritis the T cells that were activated in vivo and cloned 268 T-cell lines and hybridomas. Only 12% of these T-cell clones had the functional ability to preferentially augment the production of pathogenic anti-DNA autoantibodies. Among these, 16 helper T-cell (Th-cell) clones that were mostly CD4+ and had the strongest autoantibody-inducing ability were analyzed for T-cell receptor (TCR) beta-chain gene usage. Seven of the 16 Th-cell clones expressed beta-chain variable region (V beta) V beta 8 (8.2 or 8.3) genes and three expressed V beta 4, whereas two clones each used a V beta 1 or V beta 2 or V beta 14 gene, suggesting some restriction in TCR gene usage. Although heterogeneous, the V-D-J junctional region sequences of TCR beta-chain genes used by these Th-cell clones invariably encoded one or more negatively charged residues (aspartic or glutamic acid) that had been generated in most cases by unspecified nucleotide (N) additions. Representative pathogenic autoantibody-inducing Th-cell clones could rapidly induce the development of lupus nephritis when injected into young prenephritic SNF1 mice. The pathogenic autoantibody-inducing Th cells expressing the anionic residues in their TCR beta-chain junctions (complementarity-determining region CDR3) were probably selected by some cationic autoantigenic peptide presented by the anti-DNA B cells they preferentially helped. These results offer a clue regarding the nature of the primary autoantigen that may drive the pathogenic autoimmune response in lupus.