Structure of the mouse metalloprotease meprin beta gene (Mep1b): Alternative splicing in cancer cells

The mouse meprin beta gene encodes an integral membrane protease that is ex pressed in a tissue-specific manner in embryonic and adult epithelial cells , and in carcinoma cells. The meprin beta mRNA in the embryo, kidney and in testinal cells is 2.5 kb, whereas the isoform in carcinoma cells (beta' mRN A) is 2.7 kb. The work herein was initiated to explore the molecular mechan ism responsible for the different isoforms. Overlapping fragments containin g the Mep1b gene were obtained from a yeast artificial chromosome clone usi ng polymerase chain reactions. The gene spans approximately 40 kb and consi sts of 18 exons and 17 introns. The first three exons are unique to the 5' end of beta' mRNA; the next two exons correspond to the 5' end of beta mRNA . The rest of the exons (13 total) encode the regions common to both beta a nd beta' messages. In conjunction with the cDNA sequences, the gene structu re establishes that alternative splicing of 5' exons is responsible for the generation of the mRNA isoforms. The DNA regions between beta'- and P-spec ific exons and upstream of the first beta' exon have been completely sequen ced to identify potential regulatory elements for beta and beta' transcript ion. There is significant homology between the two regions, indicating that a duplication event occurred during evolution of the Mep1b gene. Potential promoter elements and transcription factor-binding sites were identified f rom comparisons to sequences in the databanks, This is the first gene struc ture that has been completed for meprin subunits from all species. The work elucidates molecular mechanisms that regulate differential expression of t he Mep1b gene. (C) 2000 Elsevier Science B.V. All rights reserved.