A uniform deleting element mediates the loss of kappa genes in human B cells.

Human immunoglobulin light-chain genes become rearranged in an ordered fashion during pre-B-cell development such that rearrangement generally occurs in kappa genes before lambda genes (refs 1,2). This ordered process includes an unanticipated deletion of the constant kappa (C kappa) gene and kappa enhancer sequence which precedes lambda rearrangement, and the site of this deletional recombination was located 3' to the joining (J kappa) segments in 75% of cases studied. We have now characterized the recombinational element responsible for this event on three separate alleles and found them to be identical. This kappa-deleting element recombined site-specifically with a palindromic signal (CACAGTG) located in the J kappa-C kappa intron. All losses of C kappa genes in other human B cells were mediated by this determinant, including the 25% of instances when this element recombined with sequences 5' to J kappa. In contrast, the kappa-deleting element remained in its germline form on all successful kappa-producing alleles. Moreover, kappa loss is an evolutionarily conserved event, as the kappa-deleting element appears to be the human homologue of the murine RS sequence. Our results suggest that this element may help ensure isotypic and allelic exclusion of light chains and may be involved in the ordered use of human light-chain genes.