Repression of gonadotropin-releasing hormone promoter activity by the POU homeodomain transcription factor SCIP/Oct-6/Tst-1: a regulatory mechanism of phenotype expression?

POU domain transcription factors are required for neuropeptide expression in selected subsets of hypothalamic neuroendocrine neurons. We now report that expression of the gonadotropin-releasing hormone (GnRH) gene, which controls sexual development, is regulated by the POU protein SCIP/Oct-6/Tst-1. Reverse transcriptase PCR cloning and RNase protection assays demonstrated the presence of SCIP/Oct-6/Tst-1 mRNA in the GnRH-producing neuronal cell line GT1-7. The physiological relevance of this regulatory activity was suggested by the detection of SCIP/Oct-6/Tst-1 mRNA in a subset of GnRH neurons in the hypothalamus of prepubertal female rats. Coexpression of SCIP/Oct-6/Tst-1 in neuronal cells inhibited rat GnRH (rGnRH) promoter activity via three regions of the proximal rGnRH promoter containing SCIP/Oct-6/Tst-1 binding sites. DNase I footprinting, gel shift assays, and DNA and protein mutagenesis studies indicated that both direct DNA binding and protein-protein interactions are required for SCIP/Oct-6/Tst-1 modulation of GnRH gene expression. Activation of SCIP/Oct-6/Tst-1 expression in terminally differentiated GnRH neurons may be a factor determining the ratio of phenotypically "inactive" versus "active" GnRH neurons during postnatal life.

Structure of the distal human gonadotropin releasing hormone (hGnrh) gene promoter and functional analysis in Gt1-7 neuronal cells.

To assess potential species-specific expression of gonadotropin releasing hormone (GnRH), the distal human (h) GnRH promoter was cloned, characterized and tested in gene transfer studies. The nucleotide sequence of approximately 3.8 kb of 5'-flanking region was determined. Homology to the rat (r) GnRH sequence was observed in the proximal promoter region between -551 h (-424 r) and the transcriptional start site and within multiple distal promoter regions. In contrast, there was little similarity in the sequences between -1131/-551 h and -1031/-424 r. A deletion panel of 5'-flanking hGnRH promoter constructs was made and tested in transient transfection assays in GnRH-producing mouse GT1-7 neuronal cells. The largest hGnRH promoter construct (-3832/+5 h) exhibited high levels of reporter activity, similar to that observed with the largest rGnRH construct (-3026/+116 r). However, in contrast to the rat gene, deletion of distal promoter sequences of the hGnRH promoter to -1971, -1131 or -551 did not result in a decrease in luciferase reporter activity. Further truncation to -350 resulted in a 3-fold decrease in luciferase activity. There was no preferential use of the putative upstream hGnRH start site in neuronal cells. DNase I protection assays showed unique protection patterns with nuclear extracts from GT1-7 and Gn10 neuronal cells and the hGnRH and rGnRH promoter fragments. These data suggest the presence of different cis-acting elements and transacting factors that mediate species-specific neuronal GnRH expression.

Phorbol ester inhibition of rat gonadotropin-releasing hormone promoter activity: role of Fos and Jun in the repression of transcription.

Treatment of GT1-7 neuronal cells with the phorbol ester, 12-O-tetradecanoyl phorbol 13-acetate (TPA), inhibits GnRH gene transcription. The present studies investigated the role of AP-1 (Fos and Jun) in this repression. Treatment of cells with TPA increased c-fos mRNA 20-fold with only a 2-fold increase in c-jun mRNA levels. In transient transfection studies, a luciferase expression vector containing fragments of the 5'-flanking DNA of the rat GnRH (rGnRH) promoter was cotransfected with Fos and Jun expression vectors to mimic the effects of TPA. A dose-dependent decrease in reporter activity was noted with increasing amounts of Fos but not with Jun overexpression. Deletion analysis mapped the region that mediates repression by AP-1 to the area between -126 and -73 base pairs (bp) of the rGnRH 5'-flanking region: the same area that mediates TPA-induced repression and contains an imperfect TPA response element sequence at -99. Gel retardation assays, however, showed that a DNA fragment from -111 to -73 of the rGnRH promoter does not directly interact with Fos in GT1-7 extracts. Coexpression of Fos proteins with mutations in the DNA-binding region, the dimerization domain, or carboxy terminus partially blocked inhibition of rGnRH promoter activity. These data support a novel mechanism of AP-1 repression of GnRH transcription that is mediated by Fos interaction with other protein(s) that directly bind to the proximal rGnRH promoter.