High frequency trans-splicing in a cell line producing spliced and polyadenylated RNA polymerase I transcripts from an rDNA-myc chimeric gene.

The 2G1MycP2Tu1 cell line was obtained following transfection of human colon carcinoma cells from the SW613-S cell line with a plasmid carrying a genomic copy of the human MYC gene. 2G1MycP2Tu1 cells produce MYC mRNAs and proteins of abnormal size. In order to analyze the structure of these abnormal products, a cDNA library constructed using RNA isolated from these cells was screened with a MYC probe. Fifty clones were studied by DNA sequencing. The results indicated that a truncated copy of the MYC gene had integrated into an rDNA transcription unit in 2G1MycP2Tu1 cells. This was confirmed by northern blot analysis, PCR amplification on genomic DNA and fluorescent in situ hybridization (FISH) experiments on metaphase chromosomes. 2G1MycP2Tu1 cells produce hybrid rRNA-MYC RNA molecules that are polyadenylated and processed by splicing reactions involving natural and cryptic splice sites. These transcripts are synthesized by RNA polymerase I, as confirmed by actinomycin D sensitivity experiments, suggesting that 3' end processing and splicing are uncoupled from transcription in this case. 2G1MycP2Tu1 cells also produce another type of chimeric mRNAs consisting of correctly spliced exons 2 and 3 of the MYC gene fused to one or more extraneous 5' exons by proper splicing to the acceptor sites of MYC exon 2. These foreign exons belong to 33 different genes, which are located on 14 different chromosomes. These observations and the results of FISH and Southern blotting experiments lead us to conclude that trans-splicing events occur at high frequency in 2G1MycP2Tu1 cells.