The ontogeny of diversification at the immunoglobulin heavy chain locus in Xenopus

Abstract

Since the larval and adult antibody responses are distinct and restricted in the clawed toad Xenopus, it offers a near ideal model for studying the ontogeny of antibody repertoires and the mechanisms involved. Immunoglobulin heavy chain (IgH) cDNA clones and B cell IgH DNA clones from various larval and adult libraries have been analysed in isogenic Xenopus. Some features are similar in adults and tadpoles, while others differ and explain the particularities observed previously at the protein level. Among the similarities we found are: (i) the mode of rearrangements (there are approximately 50% abortive events in B cells from both stages), (ii) VH family usage (10 of 11 known VH families are expressed proportionally to the number of VH elements per family), and (iii) JH usage (of the eight to nine Xenopus JH elements, two are used in approximately 70% of the VH regions in both stages of development). We found that there is relatively higher membrane exon expression in tadpoles compared with adults; and that most of the differences come from the diversification of CDR3 through DH usage and N diversification. Unlike in mammals, Xenopus DH elements are used with a remarkable flexibility with inversion, fusions and usage in different reading frames, but tadpoles show a strong bias for the usage of only a few DH elements and of a preferred reading frame. There is N diversification, which further increases CDR3 heterogeneity, in adult Xenopus but virtually none in tadpoles. These observations can account for the fact that larval antibody responses are less heterogeneous than those of adults.