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Department of Zoology (E.S.W.N., B.K.C.C.), University of Hong Kong, Hong Kong; and the Department of Obstetrics and Gynecology (P.K.W.C., P.C.K.L.), University of British Columbia, Vancouver, British Columbia, Canada V6T 3V5
Address all correspondence and requests for reprints to: Dr. Billy K. C. Chow, Department of Zoology, University of Hong Kong, Pokfulam Road, Hong Kong. E-mail: bkcc{at}hkusua.hku.hk
GnRH plays a pivotal role in regulating human reproductive functions.
This hypothalamic peptide interacts with its receptor (GnRHR) on the
pituitary gonadotropes to trigger the secretion of gonadotropins,
which, in turn, regulates the release of sex steroids from the gonads.
In light of the importance of GnRHR, the molecular mechanisms
underlying the transcriptional regulation of the human GnRHR
(hGnRHR) gene become a key issue in understanding human reproduction.
In this report, the possible involvement of steriodogenic factor-1
(SF-1) as a key cell-specific regulator for hGnRHR gene expression was
examined. By the transient luciferase reporter gene assays, the
wild-type promoter, containing 2.3 kb of the hGnRHR gene 5'-flanking
region relative to the ATG codon, was able to drive a 3.6 ±
0.2-fold (P < 0.05) increase in luciferase
activity in the mouse 
T3–1 gonadotropes. Subsequent deletion
analysis indicated that the most proximal 173 bp within the first exon
of the gene, although not a promoter itself, contains a critical
regulatory element(s) essential for the basal expression of the hGnRHR
gene. The functional roles of the putative gonadotrope-specific
elements (GSE; consensus 5'-CTGA/TCCTTG-3')
residing at positions -5, -134, and -396 were studied by
site-directed mutagenesis, and it was found that only the mutation at
position -134 significantly reduced the promoter activity (80%
reduction; P < 0.05). The attenuation effect of
this GSE mutant was cell specific, as it was restricted to T3–1
cells, but not to COS-7 and human ovarian adenocarcinoma (SKOV-3)
cells. Competitive mobility shift assays using either T3–1 nuclear
extract or recombinant SF-1 protein clearly indicated that SF-1 is able
to interact specifically with this GSE element positioned at -134.
Using a SF-1 antibody that completely abrogated complex formation in
the gel shift assays, the involvement of endogenous nuclear SF-1 was
further evidenced. By competitive gel shift assays using oligoprimers
with 2-bp scanning mutations, the sequences essential for the
interaction with SF-1 were identified
(5'-TTGA/TCCCTG-3',
underlined sequences were important). To study the
in vivo function of SF-1, vector directing expression of
sense or antisense SF-1 messenger RNA (mRNA) was cotransfected with the
hGnRHR promoter-luciferase construct into T3–1, SKOV-3, and COS-7
cells. Overexpression of the SF-1 mRNA was able to enhance promoter
activities in all of the cells tested. On the contrary, expression of
the antisense SF-1 mRNA reduced the hGnRHR promoter activity only in
T3–1 cells, not in COS-7 or SKOV-3 cells. In summary, the data
reported here provide conclusive evidence that SF-1 interacts with the
GSE motif at position -134 within the first exon of the hGnRHR gene to
mediate its cell-specific expression.
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