The Tripartite Basal Enhancer of the Gonadotropin-Releasing Hormone (GnRH) Receptor Gene Promoter Regulates Cell-Specific Expression Through a Novel GnRH Receptor Activating Sequence

doi:10.1210/me.11.12.1814

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The Tripartite Basal Enhancer of the Gonadotropin-Releasing Hormone (GnRH) Receptor Gene Promoter Regulates Cell-Specific Expression Through a Novel GnRH Receptor Activating Sequence

Dawn L. Duval, Scott E. Nelson and Colin M. Clay

Animal Reproduction and Biotechnology Laboratory Department of Physiology College of Veterinary Medicine and Biomedical Sciences Colorado State University Fort Collins, Colorado 80523

The molecular mechanisms regulating restricted expression ofGnRH receptor and gonadotropin subunit genes to gonadotropecells have been the focus of intense interest. Using deletionand mutational analysis we have identified a tripartite enhancerthat regulates cell-specific expression of the GnRH receptor genein the gonadotrope-derived ${alpha}$ T3–1 cell line. Individual elementsof this enhancer include binding sites for steroidogenic factor-1;activator protein 1 (AP-1); and a novel element referred to asthe GnRH receptor activating sequence (GRAS). Mutation of each elementalone results in loss of approximately 60% of promoter activity.Combinatorial mutations of any two elements decreases promoteractivity by approximately 80%. Finally, mutation of all three elementsreduces promoter activity to a level not different from promoterlessvector. Using 2-bp mutations, we have defined the functionalrequirements for transcriptional activation by GRAS. The coremotif of GRAS is at -391 to -380 bp relative to the start site oftranslation and has the sequence 5'-CTAGTCACAACA-3'. Three copiesof GRAS or GRAS with a 2-bp mutation (µGRAS) were clonedinto a luciferase expression vector immediately upstream ofthe thymidine kinase minimal promoter (TK) and tested for expressionin ${alpha}$ T3–1 cells. When compared with TK promoter alone, activityof 3xGRAS-TKLUC was increased by more than 5-fold while activityof 3xµGRAS-TKLUC was unchanged. When 3xGRAS-TKLUC wastransfected into a variety of nongo-nadotrope cell lines, itdid not increase activity of the TK promoter. We propose thatbasal activity of the GnRH receptor gene is regulated by a tripartiteenhancer, and the key component of this enhancer is an element,GRAS, that activates transcription in a cell-specific fashion.

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