Lymphomagenesis in Emu-myc transgenic mice does not require transgene rearrangement or mutation of myc exon 1.

In most human Burkitt's lymphomas, translocation of the myc oncogene to an immunoglobulin locus is associated with loss of myc exon 1 or with mutations near its 3' border, a region where myc transcription is attenuated and translation of a larger myc polypeptide initiates. Emu-myc transgenic mice, which bear the three myc exons coupled to an immunoglobulin enhancer, provide a model for the development of such lymphomas, because their lymphomagenesis appears to require events other than expression of the transgene. To determine whether myc rearrangement or exon 1 mutation is a necessary tumorigenic event, we examined the transgene structure and myc exon 1 sequences in Emu-myc B lymphoid tumours. Southern blots revealed no transgene rearrangements in 20 of the lymphomas, and only two tumours showed amplification (2 to 5-fold). To search for exon 1 alterations, the exon 1 mRNA region was amplified from five tumours by polymerase chain reaction and sequenced, but no mutations were found. Hence, neither excision nor mutation of exon 1 is necessary to render myc tumorigenic. The sequence analysis across the exon 1-exon 2 boundary unexpectedly revealed an ambiguity in myc splicing that predicts a variant form of the larger myc polypeptide lacking a single amino acid residue.