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Query: UNIPROT:P06889 (
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630,302
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Expression of the LHbeta gene has been shown to be modulated by both the orphan nuclear receptor,
steroidogenic factor-1
(
SF-1
), and the early growth response protein 1, Egr-1. It is also well known that LHbeta mRNA levels are increased after hormonal activation of the protein kinase C (PKC) signaling system, for example by GnRH; however, the mechanisms by which the PKC system exerts this effect has not been fully characterized. By transient transfection of the GH3 cell line, we demonstrate that activation of the PKC system with the phorbol ester, phorbol 12-myristate 13-acetate (PMA), increases activity of region -207/+5 of the rat LHbeta gene promoter (approximately 2-fold) and markedly augments
SF-1
-induced stimulation (95-fold in the presence of both factors vs. 13-fold for
SF-1
alone). Mutation of the two previously identified Egr-1 sites not only prevents Egr-1 effects on the LHbeta gene promoter, but also eliminates the synergistic response to PMA and
SF-1
together, findings that were confirmed in a longer construct spanning region -797/+5. In the gonadotrope-derived cell line, alphaT3-1, these mutations eliminate the GnRH responsiveness of the -207/+5 LHbeta promoter construct. We next show that PMA treatment (GH3 and alphaT3-1 cells) or GnRH treatment (alphaT3-1 cells) induces expression of Egr-1, as detected by Egr-1 interaction with Egr-1 DNA-binding sites in the rat LHbeta gene promoter sequence. Furthermore, we demonstrate that PMA increases steady-state Egr-1 mRNA levels via increased Egr-1 transcription. We conclude that PMA-induced stimulation of LHbeta gene expression is achieved, at least in part, by induction of Egr-1 expression.
Mol
Endocrinol 1999 Jan
PMID:The protein kinase C system acts through the early growth response protein 1 to increase LHbeta gene expression in synergy with steroidogenic factor-1. 989 16
In stromal cells of endometriosis, marked levels of aromatase P450 (P450arom) mRNA and activity are present and can be vigorously stimulated by (Bu)2cAMP or PGE2 to give rise to physiologically significant estrogen biosynthesis. Since eutopic endometrial tissue or stromal cells lack P450arom expression, we studied the molecular basis for differential P450arom expression in endometriosis and eutopic endometrium. First, we demonstrated by rapid amplification of cDNA 5'-ends that P450arom expression in pelvic endometriotic lesions is regulated almost exclusively via the alternative promoter II. Then, luciferase reporter plasmids containing deletion mutations of the 5'-flanking region of promoter II were transfected into endometriotic stromal cells. We identified two critical regulatory regions for cAMP induction of promoter II activity: 1) a-214/-100 bp proximal region responsible for a 3.7-fold induction, and 2) a -517/ -214 distal region responsible for potentiation of cAMP response up to 13-fold. In the -214/-100 region, we studied eutopic endometrial and endometriotic nuclear protein binding to a nuclear receptor half-site (NRHS, AGGTCA) and an imperfect cAMP response element (TGCACGTCA). Using electrophoretic mobility shift assay, cAMP response element-binding activity in nuclear proteins from both endometriotic and eutopic endometrial cells gave rise to formation of identical DNA-protein complexes. The NRHS probe, on the other hand, formed a distinct complex with nuclear proteins from endometriotic cells, which migrated at a much faster rate compared with the complex formed with nuclear proteins from eutopic endometrial cells. Employing recombinant proteins and antibodies against
steroidogenic factor-1
(
SF-1
) and chicken ovalbumin upstream promoter transcription factor (COUP-TF), we demonstrated that COUP-TF but not
SF-1
bound to NRHS in eutopic endometrial cells, whereas
SF-1
was the primary NRHS-binding protein in endometriotic cells. In fact, COUP-TF transcripts were present in both eutopic endometrial (n = 12) and endometriotic tissues (n = 8), whereas
SF-1
transcripts were detected in all endometriotic tissues (n = 12), but in only 3 of 15 eutopic endometrial tissues. Moreover, we demonstrated a dose-dependent direct competition between
SF-1
and COUP-TF for occupancy of the NRHS, to which
SF-1
bound with a higher affinity. Finally, overexpression of
SF-1
in eutopic endometrial and endometriotic cells strikingly potentiated baseline and cAMP-induced activities of -517 promoter II construct, whereas overexpression of COUP-TF almost completely abolished these activities. In conclusion, COUP-TF might be one of the factors responsible for the inhibition of P450arom expression in eutopic endometrial stromal cells, which lack
SF-1
expression in the majority (80%) of the samples; in contrast, aberrant
SF-1
expression in endometriotic stromal cells can override this inhibition by competing for the same DNA-binding site, which is likely to account for high levels of baseline and cAMP-induced aromatase activity.
Mol
Endocrinol 1999 Feb
PMID:Stimulation of aromatase P450 promoter (II) activity in endometriosis and its inhibition in endometrium are regulated by competitive binding of steroidogenic factor-1 and chicken ovalbumin upstream promoter transcription factor to the same cis-acting element. 997 54
Homologous regulation of GnRH receptor (GnRHR) gene expression is an established mechanism for controlling the sensitivity of gonadotropes to GnRH. We have found that expression of the GnRHR gene in the gonadotrope-derived alpha T3-1 cell line is mediated by a tripartite enhancer that includes a consensus activator protein-1 (AP-1) element, a binding site for SF-1 (
steroidogenic factor-1
), and an element we have termed GRAS (GnRHR-activating sequence). Further, in transgenic mice, approximately 1900 b.p. of the murine GnRHR gene promoter are sufficient for tissue-specific expression and GnRH responsiveness. The present studies were designed to further delineate the molecular mechanisms underlying GnRH regulation of GnRHR gene expression. Vectors containing 600 bp of the murine GnRHR gene promoter linked to luciferase (LUC) were transiently transfected into alpha T3-1 cells and exposed to treatments for 4 or 6 h. A GnRH-induced, dose-dependent increase in LUC expression of the -600 promoter was observed with maximal induction of LUC noted at 100 nM GnRH. We next tested the ability of GnRH to stimulate expression of vectors containing mutations in each of the components of the tripartite enhancer. GnRH responsiveness was lost in vectors containing mutations in AP-1. Gel mobility shift data revealed binding of fos/jun family members to the AP-1 element of the murine GnRHR promoter. Treatment with GnRH or phorbol-12-myristate-13-acetate (PMA) (100 nM), but not forskolin (10 microM), increased LUC expression, which was blocked by the protein kinase C (PKC) inhibitor, GF109203X (100 nM), and PKC down-regulation (10 nM PMA for 20 h). In addition, a specific MEK1/MEK2 inhibitor, PD98059 (60 microM), reduced the GnRH and PMA responses whereas the L-type voltage-gated calcium channel agonist, +/- BayK 8644 (5 microM), and antagonist, nimodipine (250 nM), had no effect on GnRH responsiveness. Furthermore, treatment of alpha T3-1 cells with 100 nM GnRH stimulated phosphorylation of both p42 and p44 forms of extracellular signal-regulated kinase (ERK), which was completely blocked with 60 microM PD98059. We suggest that GnRH regulation of the GnRHR gene is partially mediated by an ERK-dependent activation of a canonical AP-1 site located in the proximal promoter of the GnRHR gene.
Mol
Endocrinol 1999 Apr
PMID:Homologous regulation of the gonadotropin-releasing hormone receptor gene is partially mediated by protein kinase C activation of an activator protein-1 element. 1019 63
The steroidogenic acute regulatory (StAR) protein mediates the rate-limiting step of steroidogenesis, which is the transfer of cholesterol to the inner mitochondrial membrane. In steroidogenic tissues, StAR expression is acutely regulated by trophic hormones through a cAMP second messenger pathway, leading to increased StAR mRNA levels within 30 min, reaching maximal levels after 4-6 h of stimulation. The molecular mechanisms underlying such regulation remain unknown. We have examined the StAR promoter for putative transcription factor-binding sites that may regulate transcription in a developmental and/or hormone-induced context. Through sequence analysis, deoxyribonuclease I (DNAse I) footprinting and electrophoretic mobility shift assays (EMSAs), we have identified two putative CCAAT/enhancer binding protein (C/EBP) DNA elements at -113 (C1) and -87 (C2) in the mouse StAR promoter. Characterization of these sites by EMSA indicated that C/EBP beta bound with high affinity to C1 and C2 was a low-affinity C/EBP site. Functional analysis of these sites in the murine StAR promoter showed that mutation of one or both of these binding sites decreases both basal and (Bu)2cAMP-stimulated StAR promoter activity in MA-10 Leydig tumor cells, without affecting the fold activation [(Bu)2cAMP-stimulated/basal] of the promoter. Furthermore, we have demonstrated that these two C/EBP binding sites are required for
steroidogenic factor-1
(
SF-1
)-dependent transactivation of the StAR promoter in a nonsteroidogenic cell line. These data indicate that in addition to
SF-1
, C/EBP beta is involved in the transcriptional regulation of the StAR gene and may play an important role in developmental and hormone-responsive regulation of steroidogenesis.
Mol
Endocrinol 1999 May
PMID:SF-1 (steroidogenic factor-1) and C/EBP beta (CCAAT/enhancer binding protein-beta) cooperate to regulate the murine StAR (steroidogenic acute regulatory) promoter. 1031 23
The hypothalamic neuropeptide, GnRH, regulates the synthesis and secretion of LH from pituitary gonadotropes. Furthermore, it has been shown that the LH beta-subunit gene is regulated by the transcription factors
steroidogenic factor-1
(
SF-1
) and early growth response protein 1 (Egr1) in vitro and in vivo. The present study investigated the roles played by Egr1 and
SF-1
in regulating activity of the equine LH beta-subunit promoter in the gonadotrope cell line, alpha T3-1, and the importance of these factors and cis-acting elements in regulation of the promoter by GnRH. All four members of the Egr family were found to induce activity of the equine promoter. The region responsible for induction by Egr was localized to the proximal 185 bp of the promoter, which contained two Egr response elements. Coexpression of Egr1 and
SF-1
led to a synergistic activation of the equine (e)LH beta promoter. Mutation of any of the Egr or
SF-1
response elements attenuated this synergism. Endogenous expression of Egr1 in alpha T3-1 cells was not detectable under basal conditions, but was rapidly induced after GnRH stimulation. Reexamination of the promoter constructs harboring mutant Egr or
SF-1
sites indicated that these sites were required for GnRH induction. In fact, mutation of both Egr sites within the eLH beta promoter completely attenuated its induction by GnRH. Thus, GnRH induces expression of Egr1, which subsequently activates the eLH beta promoter. Finally, GnRH not only induced expression of Egr1, but also its corepressor, NGFI-A (Egr1) binding protein (Nab1), which can repress Egr1- induced transcription of the eLH beta promoter.
Mol
Endocrinol 1999 May
PMID:Early growth response protein 1 binds to the luteinizing hormone-beta promoter and mediates gonadotropin-releasing hormone-stimulated gene expression. 1031 25
Basal expression of the glycoprotein hormone alpha-subunit gene in pituitary gonadotrophs is partially dependent on a gonadotroph specific element (GSE) which binds the nuclear receptor,
steroidogenic factor-1
(
SF-1
). We have used surface plasmon resonance (SPR) to determine the association (kappa ass), dissociation (kappa diss) and affinity (KA) constants of
SF-1
binding to immobilized oligonucleotides containing either the GSE consensus motif or a GSE mutant with a 2 bp substitution in the GSE site (GSEMUT). In vitro translated
SF-1
protein bound the consensus GSE with a threefold increase in affinity constant (P<0.01) compared with the GSEMUT. This was due primarily to a significant increase (P<0.05) in the kappa ass for
SF-1
to the GSE and a slower kappa diss (P<0.05). The binding interaction was specific and could be significantly inhibited (P<0. 001) by either anti-
SF-1
antibody or excess non-biotinylated GSE. The addition of 14 bp wild-type flanking sequences significantly reduced the affinity of
SF-1
to both the GSE (P<0.05) and the GSEMUT (P<0.01). This was due to a significant (P<0.01) decrease in kappa ass for the wild-type and mutant long oligonucleotides compared with the short GSE. Nuclear extracts from alphaT3-1 gonadotroph cells also bound the GSE and GSEMUT, giving kappa diss values which were two- to threefold slower than those obtained with in vitro translated
SF-1
. Thus, SPR is a powerful technique for examining kinetic interaction between
SF-1
and its binding site, and is able to demonstrate the effects of mutations and flanking sequences on that interaction.
J
Mol
Endocrinol 1999 Jun
PMID:Steroidogenic factor 1-DNA binding: a kinetic analysis using surface plasmon resonance. 1034 83
The scavenger receptor, class B, type I (SR-BI), is the predominant receptor that supplies plasma cholesterol to steroidogenic tissues in rodents. We showed previously that
steroidogenic factor-1
(
SF-1
) binds a sequence in the human SR-BI promoter whose integrity is required for high-level SR-BI expression in cultured adrenocortical tumor cells. We now provide in vivo evidence that
SF-1
regulates SR-BI. During mouse embryogenesis, SR-BI mRNA was initially expressed in the genital ridge of both sexes and persisted in the developing testes but not ovary. This sexually dimorphic expression profile of SR-BI expression in the gonads mirrors that of
SF-1
. No SR-BI mRNA was detected in the gonadal ridge of day 11.5
SF-1
knockout embryos. Both SR-BI and
SF-1
mRNA were expressed in the cortical cells of the nascent adrenal glands. These studies directly support
SF-1
participating in the regulation of SR-BI in vivo. We examined the effect of cAMP on SR-BI mRNA and protein in mouse adrenocortical (Y1-BS1) and testicular carcinoma Leydig (MA-10) cells. The time courses of induction were strikingly similar to those described for other cAMP- and
SF-1
-regulated genes. Addition of lipoproteins reduced SR-BI expression in Y1-BS1 cells, an effect that was reversed by administration of cAMP analogs. SR-BI mRNA and protein were expressed at high levels in the adrenal glands of knockout mice lacking the steroidogenic acute regulatory protein; these mice have extensive lipid deposits in the adrenocortical cells and high circulating levels of ACTH. Taken together, these studies suggest that trophic hormones can override the suppressive effect of cholesterol on SR-BI expression, thus ensuring that steroidogenesis is maintained during stress.
Mol
Endocrinol 1999 Sep
PMID:Developmental and hormonal regulation of murine scavenger receptor, class B, type 1. 1047 38
The requirements for basal expression of the LH beta-subunit promoter in pituitary gonadotropes are largely unknown. We have used the equine (e) LHbeta subunit promoter as a model to unravel the combinatorial code required for gonadotrope expression. Through the use of 5'-deletion mutagenesis, a region between -185 and -100 of the eLHbeta promoter was shown to play a critical role in maintaining basal promoter activity in alphaT3-1 and LbetaT2 cells. This region encompasses the
steroidogenic factor-1
(
SF-1
) binding site that has been reported to have a functional role in expression of the LHbeta promoter in other species. We have also identified an additional
SF-1
site at -55 to -48. Binding of
SF-1
to both sites was confirmed by electrophoretic mobility shift assays. Mutations within these sites, either individually or in combination, did not attenuate basal activity of the eLHbeta promoter in alphaT3-1 cells, but did diminish promoter activity in LbetaT2 cells. Interestingly, cotransfection with an expression vector encoding
SF-1
induced eLHbeta promoter activity, and this induction was abrogated by mutations within the
SF-1
sites in alphaT3-1 cells. Block replacement mutagenesis was performed on the -185/-100 region of the eLHbeta promoter to identify DNA response elements responsible for maintaining basal promoter activity. From this analysis, two regions emerged as being important: a distal 31-bp segment (-181 to -150) and an element located immediately 3' to the distal
SF-1
site (-119 to -106). It is hypothesized that these two regions as well as the
SF-1
sites represent regulatory elements that contribute to a combinatorial code involved in targeting expression of the eLHbeta promoter to gonadotropes.
Mol
Endocrinol 1999 Sep
PMID:The equine luteinizing hormone beta-subunit promoter contains two functional steroidogenic factor-1 response elements. 1047 41
The inhibin alpha-subunit gene is expressed in the ovary, testis, adrenal, and pituitary. Because this pattern of expression corresponds to that of the orphan nuclear receptor,
steroidogenic factor-1
(
SF-1
), we hypothesized that the inhibin alpha promoter might be regulated by
SF-1
. Expression of exogenous
SF-1
, in an
SF-1
deficient cell line, caused modest stimulation of the inhibin alpha promoter. However, activation of the cAMP pathway, which is known to regulate inhibin alpha expression, greatly enhanced the actions of
SF-1
. Coexpression of
SF-1
with the catalytic subunit of cAMP-dependent protein kinase A caused greater than 250-fold stimulation, whereas only 4- or 7-fold stimulation was seen by the
SF-1
or protein kinase A pathway alone. Synergistic stimulation by
SF-1
and the cAMP pathway was also seen in GRMO2 granulosa cells, which express endogenous
SF-1
. Deletion and site-directed mutagenesis localized a novel
SF-1
regulatory element (TCA GGGCCA; -137 to -129) adjacent to a variant cAMP-response element (CRE; -120 to -114). The synergistic property of
SF-1
and cAMP stimulation was inherent within this composite inhibin alpha fragment (-146 and -112), as it was transferable to heterologous promoters. Mutations in either the CRE or the
SF-1
regulatory element completely eliminated synergistic activation by these pathways. The binding of
SF-1
and CRE binding protein (CREB) to the inhibin alpha regulatory elements was relatively weak in gel mobility shift assays, consistent with their deviation from consensus binding sites. However,
SF-1
was found to interact with CREB using an assay in which epitope-tagged
SF-1
was expressed in cells and used to pull down in vitro translated CREB. Expression of CREB binding protein (CBP), a coactivator that interacts with
SF-1
and CREB, further enhanced transcription by these pathways. Stimulation by the
SF-1
and cAMP pathways was associated with increased histone H4 acetylation, suggesting that chromatin remodeling accompanies their actions. We propose a model in which direct interactions of
SF-1
, CREB, and associated coactivators like CBP induce strongly cooperative transactivation by pathways that individually have relatively weak effects on transcription.
Mol
Endocrinol 2000 Jan
PMID:Synergistic activation of the inhibin alpha-promoter by steroidogenic factor-1 and cyclic adenosine 3',5'-monophosphate. 1062 48
Upregulation of the steroidogenic acute regulatory protein (StAR) is implicated in the rapid synthesis and secretion of steroidogenic cells to produce steroids in response to stimulation by trophic hormones of the gonadal and stress axes. In the present study, we have assessed the kinetics of both StAR gene transcription and protein biosynthesis in primary cell cultures of bovine adrenocortical and ovarian theca cells, under conditions of acute stimulation by corticotrophin (ACTH) and luteinizing hormone (LH), respectively. In both cell systems, detectable upregulation of StAR gene transcription occurred within 1-2 h, reaching maxima at 4 h (theca cells) or 6 h (adrenocortical cells). mRNA levels returned rapidly to baseline, by 12 h or 24 h, respectively. Specific StAR protein levels were assessed by western blotting using a novel antibody raised against a bovine StAR peptide, and showed a similar fast upregulation, albeit delayed by 1-2 h compared with the mRNA. The response of the cultured theca cells was more acute than that of the adrenocortical cells, possibly reflecting the propensity of the LH receptor to desensitize rapidly, unlike the ACTH receptor. The primary bovine theca cell cultures were also used for fully homologous transfection studies using various deletion promoter-reporter constructs of the bovine StAR gene. Kinetic analysis of the results indicated that the acute transcriptional response resides within the proximal (-315 bp) promoter region, which includes two putative responsive elements for the
steroidogenic factor-1
. More distal promoter regions may be involved in modulating the specificity of expression by combining enhancer and inhibitory functions.
J
Mol
Endocrinol 2000 Feb
PMID:Acute regulation of the bovine gene for the steroidogenic acute regulatory protein in ovarian theca and adrenocortical cells. 1065 2
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