Nucleotide sequences of switch regions of immunoglobulin C epsilon and C gamma genes and their comparison.

Abstract

Immunoglobulin class switch involves a unique recombination event that takes place at the switch (S) region which is located 5' to each constant region (C) gene of the heavy (H) chain. For example, differentiation of the B lymphocyte from a mu-chain producer to an epsilon-chain producer is mediated by the switch recombination between the S mu and S epsilon regions. In order to elucidate the molecular mechanism for the switch recombination, we have determined nucleotide sequences surrounding the class switch recombination sites of the C epsilon and C gamma 3 genes and those in the 5' flanking regions of the C gamma 2a and C delta genes. The results indicate that the 5' flanking regions of all the CH genes except for the C delta gene contain the S regions which comprise tandem repetition of short unit sequences in agreement with the previous analyses of the S gamma 1, S gamma 2b, S mu, and S alpha regions. Comparison of the nucleotide sequences of all the S regions revealed that length as well as nucleotide sequences of the S regions vary among different classes of the CH gene, but they share short common sequences, (G)AGCT and TGGG(G). The nucleotide sequence of the S mu region is homologous to those of the other S regions in the decreasing order of the S epsilon, S alpha, S gamma 3, and (S gamma 1, S gamma 2b, s gamma 2a) regions. We have compared the nucleotide sequences immediately adjacent to the recombination sites of seven rearranged genes and have always fund tetranucleotides TGAG and/or TGGG, except for one case. Such tetranucleotides may constitute a part of the recognition sequence of a putative recombinase. These results provide further support for our previous proposal that the switch recombination may be facilitated by short common sequences dispersed in all the S regions.