Abstract
BackgroundTeneurin-1 is a member of a family of type II transmembrane proteins conserved from C.elegans to vertebrates. Teneurin expression in vertebrates is best studied in mouse and chicken, where the four members teneurin-1 to -4 are predominantly expressed in the developing nervous system in area specific patterns. Based on their distinct, complementary expression a possible function in the establishment of proper connectivity in the brain was postulated. However, the transcription factors contributing to these distinctive expression patterns are largely unknown. Emx2 is a homeobox transcription factor, known to be important for area specification in the developing cortex. A study of Emx2 knock-out mice suggested a role of Emx2 in regulating patterned teneurin expression.Results5'RACE of human teneurin-1 revealed new alternative untranslated exons that are conserved in mouse and chicken. Closer analysis of the conserved region around the newly identified transcription start revealed promoter activity that was induced by EMX2. Mutation of a predicted homeobox binding site decreased the promoter activity in different reporter assays in vitro and in vivo in electroporated chick embryos. We show direct in vivo binding of EMX2 to the newly identified promoter element and finally confirm that the endogenous alternate transcript is specifically upregulated by EMX2.ConclusionsWe found that human teneurin-1 is directly regulated by EMX2 at a newly identified and conserved promoter region upstream of the published transcription start site, establishing teneurin-1 as the first human EMX2 target gene. We identify and characterize the EMX2 dependent promoter element of human teneurin-1.
Highlights
Teneurin-1 is a member of a family of type II transmembrane proteins conserved from C.elegans to vertebrates
We show that EMX2 directly binds to and regulates human teneurin-1 expression at this alternate promoter
Using 4 kb of sequence surrounding the newly identified first exon of human teneurin-1 to BLAST the mouse genome revealed that this entire region was conserved between species with an overall sequence identity of 58%, and included local sequence identities of over 90%
Summary
Teneurin-1 is a member of a family of type II transmembrane proteins conserved from C.elegans to vertebrates. Teneurins are a unique family of type II transmembrane proteins conserved from Drosophila melanogaster and Caenorhabditis elegans to vertebrates, where four paralogues exist called teneurin 1-4 [1]. Experiments in vitro and in vivo showed that the different members of the teneurin family form disulfide-linked dimers [16,23] and promote homophilic cell-cell adhesions and neurite outgrowth [18,24] These functions of the protein are believed to mediate correct pathfinding and area recognition of neurons. This was shown in the teneurin-3 knockdown mouse, which exhibits dramatic changes in the mapping of ipsilateral retinal inputs causing mismatches in binocular mapping. This is associated with major deficits in the performance of visually mediated behavioral tasks [25]
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