The cea10 gene encodes a secreted member of the murine carcinoembryonic antigen family and is expressed in the placenta, gastrointestinal tract and bone marrow.

Abstract

Although members of the carcinoembryonic antigen (CEA) family have been shown to convey cell adhesion in vitro, their location in some tissues contradicts such a function. As a basis for investigating their in vivo functions, we are characterizing the mouse CEA family. This paper describes the structure and expression of a new murine family member, cea10. Two full-length cDNA clones were isolated from a mouse colon library, whose deduced protein sequence comprises two immunoglobulin variable-like N-domains, directly followed by a short C-terminal domain indicating that this molecule is secreted. Although this domain organization suggests a closer relationship to the murine pregnancy-specific glycoproteins (PSG), which form a subgroup within the CEA family, sequence comparisons place Cea10 within the CEA subgroup. Overlapping cosmid clones containing the complete cea10 locus were mapped and the exons determined. No A2-like exon, characteristic for all other members of the murine CEA family, could be found. Sequences of the promoter and the first exon showed remarkably high similarity to the corresponding regions of bgp1 and bgp2, two other members of the murine CEA subgroup. Consensus sequences for two transcription factors (USF and an AP-2-like factor) that bind to the human BGP gene promoter were also present in the cea10 promoter and possibly convey expression of these genes in epithelial cells. RNase protection assays revealed transcriptional activity of cea10 in the colon and early placenta (10.5-12.5-day embryos) and to a lower extent in the small intestine, cecum, stomach, salivary glands and bone marrow. As some other CEA family members are deregulated in tumors, we quantified the expression levels of Cea10 transcripts in colonic mucosa and in adenomatous polyps of Min/+ mice. No differences in the steady-state levels of Cea10 mRNA could be found, suggesting that the Cea10 protein does not play a role in early tumor development. Taken together, Cea10 combines characteristic features of both CEA and PSG subgroup members in its structure and expression pattern.