Transcriptional Down-Regulation of Human Gonadotropin-Releasing Hormone (GnRH) Receptor Gene by GnRH: Role of Protein Kinase C and Activating Protein 1

Abstract Clinical applications of GnRH agonists (GnRHa) are based primarily on the decrease in gonadotropin release after down-regulation of the GnRH receptor (GnRHR) by continuous GnRHa administration. However, the molecular mechanisms underlying the transcriptional regulation of the human GnRHR ge...

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Published in:Endocrinology (Philadelphia) 2000-10, Vol.141 (10), p.3611-3622
Main Authors: Cheng, Kwai Wa, Ngan, Elly S. W., Kang, Sung Keun, Chow, Billy K. C., Leung, Peter C. K.
Format: Article
Language:English
Subjects:
Acetic acid
Activator protein 1
Amino acid sequence
Binding sites
c-Fos protein
c-Jun protein
Conserved sequence
Down-regulation
Electrophoretic mobility
Gene deletion
Gene expression
Gene regulation
Gonadotropin-releasing hormone
Gonadotropin-releasing hormone receptors
Gonadotropins
Homology
Kinases
Molecular modelling
Nucleotide sequence
Phorbol 12-myristate 13-acetate
Pituitary (anterior)
Protein kinase C
Proteins
Receptors
Transcription factors
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Summary:Abstract Clinical applications of GnRH agonists (GnRHa) are based primarily on the decrease in gonadotropin release after down-regulation of the GnRH receptor (GnRHR) by continuous GnRHa administration. However, the molecular mechanisms underlying the transcriptional regulation of the human GnRHR gene after prolonged GnRH treatment remain poorly understood. In the present study GnRHa-mediated regulation of human GnRHR gene transcription was studied by transiently transfecting the mouse gonadotrope-derived (αT3–1) cells with a 2297-bp human GnRHR promoter-luciferase construct (p2300-LucF). A dose- and time-dependent decrease in human GnRHR promoter activity was observed after GnRHa treatment. An average 71% decrease in promoter activity was observed after 24-h treatment with 0.1μ m GnRHa, which was blocked by cotreatment of the GnRH antagonist, antide. This effect was mimicked by phorbol 12-myristate 13-acetate (TPA) administration. In addition, the GnRHa- and TPA-mediated decrease in the human GnRHR promoter activity was reversed by a specific protein kinase C (PKC) inhibitor, GF109203X, or depletion of PKC by TPA pretreatment. These findings indicate that the activation of the PKC pathway is important in regulating the human GnRHR gene expression. By progressive 5′-deletion studies, we have identified a 248-bp DNA fragment (−1018 to −771, relative to the translation start site) at the 5′-flanking region of the human GnRHR gene that is responsible for the GnRHa-mediated down-regulation of human GnRHR promoter activity. Analysis of this sequence reveals the existence of two putative activating protein-1 (AP-1) sites with 87% homology to the consensus sequence (5′-TGAG/CTC/AA-3′), located at −1000 to −994 (5′-TTAGACA-3′, in complementary orientation) and −943 to −937 (5′-TGAATAA-3′). Using competitive gel mobility shift assays, AP-1 binding was observed within this 248-bp region. Site-directed mutation of the putative AP-1-binding site located at −1000 to −994 abolished the GnRHa-induced inhibition. Further competitive GMSA and supershift experiments confirmed the identity of AP-1 binding in this region. By the use of Western blot analysis, a significant increase in c-Jun (100%; P< 0.05) and c-Fos (50%; P < 0.05) protein levels was observed after GnRHa treatment in αT3–1 cells. In addition, our data suggested that a change in AP-1 composition, particularly c-Fos, was important in mediating GnRHa-induced inhibition of human GnRHR gene expression. We conclude
ISSN:0013-7227
1945-7170
DOI:10.1210/endo.141.10.7730