We have studied immunoglobulin doubleisotype expression in, a transgenic mouse (TG.SA) in which expression of the endogenous immunoglobulin heavy chain locus is almost completely excluded by a nonallelic rearranged human ,u transgene. By flow-cytometric analyses, we have shown that a small, but significant, portion (about 4%) of transgenic spleen cells expresses human ,u (transgene) and mouse y (endogenous) chains when cultured in vitro with bacterial lipopolysaccharide and interleukin 4. By using amplification of cDNA by the polymerase chain reaction, followed by cloning and sequencing of the amplified cDNA fragment, we have demonstrated expression of trans-mRNA consisting of the transgenic variable and endogenous constant (yl) region sequences. Such trans-mRNA could be produced by either switch recombination or trans-splicing between the transgene and endogenous sterile yl-gene transcripts. These results indicate that trans-splicing might be a possible mechanism for the immunoglobulin double-isotype expression in normal B lymphocytes that have not rearranged the second expressed constant region gene.Ce genes (12, 13). As the existence of such sterile transcripts from a CH gene seemed to correlate well with switching to that particular CH isotype, the sterile transcripts were thought to be indicative of opening of the chromatin structure of the CH genes that make the putative switch recombinase system accessible (12-15).The accessibility model (12-15) thus considered the sterile transcript useless by itself. However, there remains the possibility that the sterile transcript could be utilized as a substrate of the trans-splicing reaction for the double-isotype expression (P. Sideras, T.-R.M., A.S., and T.H., unpublished data). To test this hypothesis, we took advantage of a human immunoglobulin transgenic mouse (TG.SA) in which a majority of B lymphocytes expresses human transgenic u chain and, by allelic exclusion, does not completely rearrange the endogenous immunoglobulin heavy chain locus (16). In this paper, we report that the transgenic VHDJH exon can be expressed in conjunction with the endogenous mouse C.1 gene. These results could accommodate either a transsplicing or a DNA recombinant mechanism.l During the course of B-lymphocyte differentiation, progeny of a single B lymphocyte can switch the expressed immunoglobulin isotype from IgM to IgG or other classes of immunoglobulin without changing the antigen specificity determined by the V region sequence (where V, D, J, and C indicate variable, diversity, joining, and constant regions of immunoglobulin). This phenomenon, known as immunoglobulin class switching, is accompanied by DNA rearrangement that takes place between S regions located 5' to each CH gene
