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ABSTRACT: Matrix metalloproteinases (MMPs) are enzymes that regulate extracellular matrix composition and contribute to cell migration. Microarray studies in mouse placenta suggested that MMP-9 transcript abundance was dependent upon Distal-less 3 (Dlx3), a placental-specific transcriptional regulator; however, it was not clear if this was a direct or indirect effect. Here we investigate mechanism(s) for Dlx3-dependent MMP-9 gene transcription and gelatinase activity in placental trophoblasts. Initial studies confirmed that MMP-9 activity was reduced in placental explants from Dlx3(-/-) mice and that murine MMP-9 promoter activity was induced by Dlx3 overexpression. Two binding sites within a murine MMP-9 promoter fragment bound Dlx3 and mutations in both elements reduced basal MMP-9-luciferase reporter activity and abolished regulation by Dlx3. Chromatin immunoprecipitation studies in JEG3 cells confirmed Dlx3 binding to the endogenous human MMP-9 promoter at three distinct sites and knockdown of human Dlx3 resulted in reduced endogenous MMP-9 transcripts and secreted activity. These studies provide novel evidence that Dlx3 is involved directly in the transcriptional regulation of mouse and human MMP-9 gene expression in placental trophoblasts.
AJP Cell Physiology 05/2013; · 3.54 Impact Factor
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ABSTRACT: Stimulation of pituitary gonadotropes by hypothalamic GnRH leads to the rapid expression of several immediate early genes that play key roles in orchestrating the response of the gonadotrope to hypothalamic stimuli. Elucidation of the signaling mechanisms that couple the GnRH receptor to this immediate early gene repertoire is critical for understanding the molecular basis of GnRH action. Here we identify signaling mechanisms that underlie regulation of the orphan nuclear receptor Nur77 as a GnRH-responsive immediate early gene in αT3-1 cells and mouse gonadotropes in culture. Using a variety of approaches, we show that GnRH-induced transcriptional upregulation of Nur77 in αT3-1 cells is dependent on calcium, protein kinase C (PKC), and ERK signaling. Transcriptional activity of Nur77 within the gonadotrope is regulated posttranslationally by GnRH signaling via PKC but not ERK activity. Surprisingly, neither activation of the ERK pathway nor the transcriptional response of Nur77 to GnRH requires the activity of c-Raf kinase. In corroboration of these results, Nur77 responsiveness to GnRH was maintained in gonadotropes from mice with pituitary-targeted ablation of c-Raf kinase. In contrast, gonadotropes from mice with pituitary deficiency of ERK signaling failed to up-regulate Nur77 after GnRH stimulation. These results further clarify the role of ERK and PKC signaling in regulation of the GnRH-induced immediate early gene program as well as GnRH-induced transcription-stimulating activity of Nur77 in the gonadotrope and shed new light on the complex functional organization of this signaling pathway in the pituitary gonadotrope.
Endocrinology 12/2011; 153(2):700-11. · 4.46 Impact Factor
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ABSTRACT: Peptidylarginine deiminase IV (PADI4) catalyzes the conversion of positively charged arginine and methylarginine residues to neutrally charged citrulline, and this activity has been linked to the repression of a limited number of target genes. To broaden our knowledge of the regulatory potential of PADI4, we utilized chromatin immunoprecipitation coupled with promoter tiling array (ChIP-chip) analysis to more comprehensively investigate the range of PADI4 target genes across the genome in MCF-7 breast cancer cells. Results showed that PADI4 is enriched in gene promoter regions near transcription start sites (TSSs); and, surprisingly, this pattern of binding is primarily associated with actively transcribed genes. Computational analysis found potential binding sites for Elk-1, a member of the ETS oncogene family, to be highly enriched around PADI4 binding sites; and coimmunoprecipitation analysis then confirmed that Elk-1 physically associates with PADI4. To better understand how PADI4 may facilitate gene transactivation, we then show that PADI4 interacts with Elk-1 at the c-Fos promoter and that, following Epidermal Growth Factor (EGF) stimulation, PADI4 catalytic activity facilitates Elk-1 phosphorylation, histone H4 acetylation, and c-Fos transcriptional activation. These results define a novel role for PADI4 as a transcription factor co-activator.
PLoS Genetics 06/2011; 7(6):e1002112. · 8.69 Impact Factor
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ABSTRACT: The binding of hypothalamic gonadotropin-releasing hormone (GnRH) to the pituitary GnRH receptor (GnRHR) is essential for reproductive function by stimulating the synthesis and secretion of gonadotropic hormones, luteinizing hormone (LH) and follicle stimulating hormone (FSH). Engagement of the GnRHR by GnRH initiates a complex series of signaling events that include the activation of various mitogen-activated protein kinase (MAPK) pathways, including extracellular signal-regulated kinase (ERK). GnRHR signaling is thought to initiate within specialized microdomains in the plasma membrane termed membrane rafts. These microdomains are enriched in sphingolipid and cholesterol and are believed to be highly dynamic organizing centers for receptors and their cognate signaling molecules associated with the plasma membrane. Within this review we discuss the composition and role of membrane rafts in cell signaling and examine evidence that the mammalian type I GnRHR is constitutively and exclusively localized to these membrane microdomains in various experimental models. We conclude that membrane raft composition and organization potentially underlie the functional ability of GnRH to elicit the assembly of multi-protein signaling complexes necessary for downstream signaling to the ERK pathway that ultimately is critical for controlling fertility.
Brain research 12/2010; 1364:53-61. · 2.46 Impact Factor
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ABSTRACT: Mammalian reproductive cycles are controlled by an intricate interplay between the hypothalamus, pituitary and gonads. Central to the function of this axis is the ability of the pituitary gonadotrope to appropriately respond to stimulation by gonadotropin-releasing hormone (GnRH). This review focuses on the role of cell signaling and in particular, mitogen-activated protein kinase (MAPK) activities regulated by GnRH that are necessary for normal fertility. Recently, new mouse models making use of conditional gene deletion have shed new light on the relationships between GnRH signaling and fertility in both male and female mice. Within the reproductive axis, GnRH signaling is initiated through discrete membrane compartments in which the receptor resides leading to the activation of the extracellular signal-regulated kinases (ERKs 1/2). As defined by gonadotrope-derived cellular models, the ERKs appear to play a central role in the regulation of a cohort of immediate early genes that regulate the expression of late genes that, in part, define the differentiated character of the gonadotrope. Recent data would suggest that in vivo, conditional, pituitary-specific disruption of ERK signaling by GnRH leads to a gender-specific perturbation of fertility. Double ERK knockout in the anterior pituitary leads to female infertility due to LH biosynthesis deficiency and a failure in ovulation. In contrast, male mice are modestly LH deficient; however, this does not have an appreciable impact on fertility.
Frontiers in Neuroendocrinology 05/2010; 31(3):322-40. · 11.43 Impact Factor
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ABSTRACT: Males and females require different patterns of pituitary gonadotropin secretion for fertility. The mechanisms underlying these gender-specific profiles of pituitary hormone production are unknown; however, they are fundamental to understanding the sexually dimorphic control of reproductive function at the molecular level. Several studies suggest that ERK1 and -2 are essential modulators of hypothalamic GnRH-mediated regulation of pituitary gonadotropin production and fertility. To test this hypothesis, we generated mice with a pituitary-specific depletion of ERK1 and 2 and examined a range of physiological parameters including fertility. We find that ERK signaling is required in females for ovulation and fertility, whereas male reproductive function is unaffected by this signaling deficiency. The effects of ERK pathway ablation on LH biosynthesis underlie this gender-specific phenotype, and the molecular mechanism involves a requirement for ERK-dependent up-regulation of the transcription factor Egr1, which is necessary for LHbeta expression. Together, these findings represent a significant advance in elucidating the molecular basis of gender-specific regulation of the hypothalamic-pituitary-gonadal axis and sexually dimorphic control of fertility.
Molecular Endocrinology 05/2009; 23(7):1092-101. · 4.54 Impact Factor
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ABSTRACT: Calcium influx through L-type voltage-gated calcium channels (VGCC) is required for ERK activation induced by GnRH in pituitary gonadotropes. The current studies investigate VGCC-sensitive catalytic activities that may lie upstream of ERKs within the GnRH signaling network. Ion exchange fractionation of alphaT3-1 cell lysates subjected to anti-phosphotyrosine Western blot analysis revealed a nifedipine-sensitive activity that colocalized with proline-rich tyrosine kinase (Pyk) 2 immunoreactivity. Phosphorylated Pyk2 was present in alphaT3-1 cells after GnRH agonist administration for a time course that lasted up to 4 h. Pyk2 phosphorylation was also evident in gonadotropes in vivo after administration of a bolus of GnRH. Knockdown of Pyk2 using specific small interfering RNAs revealed that Pyk2 contributed to modulation of GnRH-induced ERK but not c-Jun N-terminal kinase activation. Using pharmacological approaches, calmodulin (Cam) was also demonstrated to be required for the phosphorylation of Pyk2. Pyk2 was shown to bind specifically to a Cam agarose affinity column in a calcium-dependent manner, suggesting Cam and Pyk2 are capable of forming a complex. Specific mutation of a putative Cam binding motif within the catalytic domain of Pyk2 blocked association with Cam and uncoupled Pyk2's ability to activate ERK-dependent gene transcription. Thus, GnRH induces Pyk2 tyrosine phosphorylation dependent upon calcium flux within gonadotropes. Furthermore, association of Pyk2 and Cam may be required to mediate the effects of calcium on Pyk2 phosphorylation and subsequent activation of ERKs by GnRH.
Molecular Endocrinology 10/2008; 22(10):2322-35. · 4.54 Impact Factor
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ABSTRACT: Ca(+)-activated Cl(-) channel (CLCA) proteins are encoded by a family of highly related and clustered genes in mammals that are markedly upregulated in inflammation and have been shown to affect chloride transport. Here we describe the cellular processing and regulatory sequences underlying murine (m) CLCA4 proteins. The 125-kDa mCLCA4 gene product is cleaved to 90- and 40-kDa fragments, and the NH(2)- and COOH-terminal fragments are secreted, where they are found in cell media and associated with the plasma membrane. The 125-kDa full-length protein is only found in the endoplasmic reticulum (ER), and specific luminal diarginine retention and dileucine forward trafficking signals contained within the CLCA4 sequence regulate export from the ER and proteolytic processing. Mutation of the dileucine luminal sequences resulted in ER trapping of the immaturely glycosylated 125-kDa peptide, indicating that proteolytic cleavage occurs following recognition of the trafficking motifs. Moreover, the mutated dileucine and diarginine signal sequences directed processing of a secreted form of enhanced green fluorescent protein in a manner consistent with the effects on mCLCA4.
AJP Cell Physiology 08/2008; 295(1):C279-87. · 3.54 Impact Factor
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ABSTRACT: Previous studies demonstrated that GnRH-induced secretogranin II (SgII) promoter regulation required a consensus cAMP response element (CRE) and protein kinase A/CRE binding protein. The present studies examined the role of additional components of the GnRH signaling network on SgII promoter activity with particular attention devoted to CRE-dependent gene regulation. Disruption of the SgII CRE by mutagenesis resulted in inhibition of GnRH agonist (GnRHa) induction of this promoter in alphaT3-1 cells. Pharmacological and dominant-negative inhibition of the ERK and c-Jun N-terminal kinase (JNK) signaling pathways revealed that GnRHa-induced SgII promoter activity required functional JNK and ERK modules. Combined inhibition of both pathways nearly abolished GnRHa-induced SgII promoter activity. Specific induction of the ERK cascade alone using overexpression of Raf-CAAX was not sufficient to activate the SgII gene promoter. In contrast, overexpression of the catalytic domain of the more pleiotropic MAPK activator, MAPK/ERK kinase-1, was sufficient to induce SgII promoter activity. The effect(s) of mitogen-activated protein/ERK kinase-1 on SgII promoter activity was CRE dependent and was reversed by the combined pharmacological inhibition of both JNK and ERK modules. CRE DNA binding studies demonstrated the recruitment of activating transcription factor (ATF)-3 and c-Jun to the CRE after administration of GnRHa to alphaT3-1 cells. Specific small interfering RNA knockdown of ATF3 reduced ATF3 DNA binding and the effect of GnRHa on the SgII promoter. These studies support the conclusion that MAPK signaling and ATF3 action are essential for full SgII promoter activation by GnRHa through a canonical CRE. Moreover, we suggest that within the GnRH signaling network, CRE-dependent gene regulation in general may be mediated primarily through the immediate early response gene ATF3.
Endocrinology 03/2008; 149(2):783-92. · 4.46 Impact Factor
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ABSTRACT: Dlx3, a homeodomain transcription factor, is essential for placental development in the mouse. The Dlx3(-/-) mouse embryo dies at embryonic d 9.5-10 putatively due to placental failure. To develop a more comprehensive understanding of the gene profile regulated by Dlx3, microarray analysis was used to determine differences in gene expression within the placenta of Dlx3(+/+) and Dlx3(-/-) mice. Array analysis revealed differential expression of 401 genes, 33 genes in which signal to log ratio values of null/wild-type were lower than -0.5 or higher than 0.5. To corroborate these findings, quantitative real-time PCR was used to confirm differential expression for 11 genes, nine of which displayed reduced expression and two with enhanced expression in the Dlx3(-/-) mouse. Loss of Dlx3 resulted in a marked reduction (>60%) in mRNA expression of placental growth factor (Pgf), a member of the vascular endothelial growth factor family. Consistent with these results, Pgf secretion from placental explants tended to be reduced in the Dlx3(-/-) mice, compared with wild type. To investigate mechanisms of Dlx3 regulation of Pgf gene transcription, we cloned 5.2 kb of the Pgf 5' flanking sequence for use in reporter gene assays. Expression of the Pgf promoter luciferase reporter containing at least three Dlx3 binding sites was increased markedly by overexpression of Dlx3 supporting the conclusion that Dlx3 may have a direct effect on Pgf promoter activity. These studies provide a novel view of the transcriptome regulated by Dlx3 in mouse placenta. Dlx3 is specifically required for full expression and secretion of Pgf in vivo. Moreover, in vitro studies support the conclusion that Dlx3 is sufficient to directly modulate expression of the Pgf gene promoter in placental cells.
Endocrinology 03/2007; 148(3):1246-54. · 4.46 Impact Factor
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ABSTRACT: Our previous work demonstrated that the type I GnRH receptor (GnRHR) resides exclusively and constitutively within membrane rafts in alphaT3-1 gonadotropes and that this association was necessary for the ability of the receptor to couple to the ERK signaling pathway. G(alphaq), c-raf, and calmodulin have also been shown to reside in this compartment, implicating a raft-associated multiprotein signaling complex as a functional link between the GnRHR and ERK signaling. In the studies reported here, we used subcellular fractionation and coimmunoprecipitation to analyze the behavior of ERKs with respect to this putative signaling platform. ERK 2 associated partially and constitutively with low-density membranes both in alphaT3-1 cells and in whole mouse pituitary. Cholesterol depletion of alphaT3-1 cells reversibly blocked the association of both the GnRHR and ERKs with low-density membranes and uncoupled the ability of GnRH to activate ERK. Analysis of the kinetics of recovery of ERK inducibility after cholesterol normalization supported the conclusion that reestablishment of the association of the GnRHR and ERKs with the membrane raft compartment was not sufficient for reconstitution of signaling activity. In alphaT3-1 cells, the GnRHR and ERK2 coimmunoprecipitated from low-density membrane fractions prepared either in the presence or absence of detergent. The GnRHR also partitioned into low-density, detergent-resistant membrane fractions in mouse pituitary and coimmunoprecipitated with ERK2 from these fractions. Collectively, these data support a model in which coupling of the GnRHR to the ERK pathway in gonadotropes involves the assembly of a multiprotein signaling complex in association with specialized microdomains of the plasma membrane.
Molecular Endocrinology 03/2007; 21(2):538-49. · 4.54 Impact Factor
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ABSTRACT: Dlx3 (Distal-less 3) is a homeobox-containing transcription factor required for normal placental development in mice. Here we demonstrate that Dlx3 interacts with Smad6, a member of a larger family of transcriptional regulators generally thought to regulate transforming growth factor beta/bone morphogenetic protein signaling. Immunocytochemical and immunoprecipitation studies demonstrate overlapping nuclear localization and physical interaction between Dlx3 and Smad6 in human choriocarcinoma cells and in differentiated trophoblasts from human placenta. In vitro protein interaction studies mapped the Smad6 interaction domain within Dlx3 to residues 80-163, a region of Dlx3 that includes a portion of the homeodomain. Dlx3 and Dlx4 share homology within this region, and Dlx4 was also found to bind Smad6. Using the Esx1 gene promoter as a model for a Dlx3-responsive gene, studies demonstrate two near consensus Dlx3 binding sites within the proximal 2.3 kb of the transcription start site. Interestingly, binding of Dlx3 to one of these two sites was inhibited by interaction with Smad6. Consistent with this result, expression of an Esx1 promoter luciferase reporter was increased by overexpression of Dlx3; this effect was reversed with co-expression of Smad6. Further, small interference RNA-mediated knockdown of endogenous Smad6 increased Dlx3-dependent expression of the Esx1 gene promoter. Thus, Smad6 appears to functionally interact with Dlx3, altering the ability of Dlx3 to bind target gene promoters. Smad6 appears to play a modulatory role in the regulation of Dlx3-dependent gene transcription within placental trophoblasts.
Journal of Biological Chemistry 08/2006; 281(29):20357-67. · 4.77 Impact Factor
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ABSTRACT: Recent studies profiling immediate early gene responses to GnRH in the LbetaT2 gonadotrope cell model revealed increased expression of numerous genes including activating transcription factor (ATF) 3. The present studies demonstrate similar results with GnRH administration in vivo in ovariectomized mice. In this model, ATF3 mRNA was markedly up-regulated at 20, 40, and 60 min after in vivo administration of a GnRH analog. In alphaT3-1 gonadotrope cells, ATF3 mRNA and protein were induced by GnRH in a manner consistent with in vivo observations. Pharmacological studies implicated a combined role for the activities of protein kinase C isozymes, ERK and c-Jun N-terminal kinase, in modulating ATF3 expression. The role of ATF3 was further investigated in the activation of the human glycoprotein hormone alpha-subunit gene promoter. GnRH induced the alpha-subunit promoter-luciferase reporter approximately 16-fold, and this induction was completely abolished with mutations in the dual cAMP response elements (CREs) or the combined inhibition of GnRH-induced ERK and c-Jun N-terminal kinase. GnRH induced recruitment of ATF3, c-Jun, and c-Fos to the dual CREs. Overexpression and specific knockdown of ATF3 by small inhibitory RNA implicate a functional role for ATF3 in mediating activation of the alpha-subunit gene promoter. These studies provide clear evidence that ATF3 is a key immediate early gene induced by GnRH administration in vivo and in the alphaT3-1 gonadotrope cell model. These studies support the conclusion that the dual CREs of the human alpha-subunit promoter are the target of GnRH-induced MAPK regulation through ATF3.
Molecular Endocrinology 11/2005; 19(10):2624-38. · 4.54 Impact Factor
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ABSTRACT: Our previous studies demonstrate that GnRH-induced ERK activation required influx of extracellular Ca2+ in alphaT3-1 and rat pituitary cells. In the present studies, we examined the hypothesis that calmodulin (Cam) plays a fundamental role in mediating the effects of Ca2+ on ERK activation. Cam inhibition using W7 was sufficient to block GnRH-induced reporter gene activity for the c-Fos, murine glycoprotein hormone alpha-subunit, and MAPK phosphatase (MKP)-2 promoters, all shown to require ERK activation. Inhibition of Cam (using a dominant negative) was sufficient to block GnRH-induced ERK but not c-Jun N-terminal kinase activity activation. The Cam-dependent protein kinase (CamK) II inhibitor KN62 did not recapitulate these findings. GnRH-induced phosphorylation of MAPK/ERK kinase 1 and c-Raf kinase was blocked by Cam inhibition, whereas activity of phospholipase C was unaffected, suggesting that Ca2+/Cam modulation of the ERK cascade potentially at the level of c-Raf kinase. Enrichment of Cam-interacting proteins using a Cam agarose column revealed that c-Raf kinase forms a complex with Cam. Reconstitution studies reveal that recombinant c-Raf kinase can associate directly with Cam in a Ca2+-dependent manner and this interaction is reduced in vitro by addition of W7. Cam was localized in lipid rafts consistent with the formation of a Ca2+-sensitive signaling platform including the GnRH receptor and c-Raf kinase. These data support the conclusion that Cam may have a critical role as a Ca2+ sensor in specifically linking Ca2+ flux with ERK activation within the GnRH signaling pathway.
Molecular Endocrinology 10/2005; 19(9):2412-23. · 4.54 Impact Factor
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ABSTRACT: The promoters of mouse and rat GnRH receptor (GnRHR) genes differ markedly in regard to activin regulation. Activin stimulates the mouse GnRHR promoter, although it has no impact on that of the rat. To test whether this difference was due to a single nucleotide change in the rat GnRHR activating sequence (GRAS) homolog, we tested a mouse promoter with the rat GRAS homolog and a rat promoter with intact mouse GRAS. The single change in GRAS eliminated activin responsiveness of the mouse GnRHR promoter; however, intact mouse GRAS did not confer activin responsiveness to the rat promoter. Thus, although necessary, GRAS is not sufficient for activin responsiveness of the murine GnRHR promoter. Use of chimeric rat and mouse promoters led to the identification of a 36-bp region residing immediately downstream of GRAS that is necessary for activin responsiveness of the mouse GnRHR gene promoter. Scanning mutagenesis of the 36-bp region localized the functional boundaries of the key regulatory element to adjacent TAAT motifs. The presence of tandem TAAT motifs, the core binding site for multiple members of the homeodomain family of binding proteins, raised the possibility that this region represented a binding site for a homeodomain protein. This region displayed specific binding to a recombinant homeodomain of LHX2. We suggest that GRAS and the downstream activin regulatory element together define a unique and complex activin/TGFbeta-responsive "enhanceosome" whose functional attributes depend on the binding of multiple classes of transcription factors at spatially distinct sites in the promoter of the murine GnRHR gene.
Molecular Endocrinology 05/2005; 19(4):898-912. · 4.54 Impact Factor
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ABSTRACT: Non-viral gene vectors have attracted much attention recently due to setbacks with viral delivery systems. Here a new non-viral delivery system based on nanobiohybrids synthesized by the intercalation of a full gene and promoter encoding Green Fluorescent Protein (GFP) between the layers of an inorganic host is reported. The nanobiohybrids were delivered to 9L glioma cells, JEG3 choriocarcinoma placental cells, and cardiac myocytes. All cells were able to internalize and tolerate the nanobiohybrids. In addition, all cells expressed the gene with some cell lines having up to 90% transfection efficiency. This new, bio-mimetic delivery system shows promise for use in non-viral gene therapy.
Journal of Controlled Release 01/2005; 100(3):399-409. · 5.73 Impact Factor
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ABSTRACT: The homeodomain protein Distal-less 3 (Dlx3) is essential for normal placental development in mice. Dlx3-null mice die by embryonic day 10.0 due to placental failure. The aim of our studies was to examine the transcriptional regulation and expression of Dlx3 in choriocarcinoma cell lines and primary trophoblasts from human placenta. A Dlx3 promoter fragment coupled to a luciferase reporter gene was sufficient to increase luciferase activity more than 11-fold over a luciferase control vector in choriocarcinoma cells, but not in a heterologous gonadotrope cell line. A 5' deletion series of the Dlx3 promoter revealed that a 13-nucleotide CCAAT box-containing element was required for basal expression in choriocarcinoma cell lines. Mutation of the CCAAT box within the context of the full-length promoter resulted in reduced basal activation of the Dlx3 reporter gene, suggesting that the CCAAT box was required for full basal expression. Western blot analysis revealed that Dlx3, CCAAT/enhancer-binding protein alpha (C/EBP alpha), and C/EBP beta were present in choriocarcinoma cells and isolated trophoblasts from term human placentas. Electrophoretic mobility shift assays revealed the formation of a specific complex between choriocarcinoma cell nuclear extracts and the Dlx3 CCAAT box sequence. Competition and antibody electrophoretic mobility shift assays revealed that CCAAT/enhancer-binding protein beta (C/EBP beta) binds the Dlx3 CCAAT box sequence. Overexpression of C/EBP beta was sufficient to increase basal expression of a Dlx3 reporter gene in a dose-dependent manner. These studies provide the first insight into the mechanism(s) of Dlx3 gene expression in placental cells and suggest a role for C/EBP beta in the basal regulation of the Dlx3 gene.
Endocrinology 04/2004; 145(3):1096-105. · 4.46 Impact Factor
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ABSTRACT: Specialized membrane microdomains known as lipid rafts are thought to contribute to G-protein coupled receptor (GPCR) signaling by organizing receptors and their cognate signaling molecules into discrete membrane domains. To determine if the GnRHR, an unusual member of the GPCR superfamily, partitions into lipid rafts, homogenates of alpha T3-1 cells expressing endogenous GnRHR or Chinese hamster ovary cells expressing an epitope-tagged GnRHR were fractionated through a sucrose gradient. We found the GnRHR and c-raf kinase constitutively localized to low density fractions independent of hormone treatment. Partitioning of c-raf kinase into lipid rafts was also observed in whole mouse pituitary glands. Consistent with GnRH induced phosphorylation and activation of c-raf kinase, GnRH treatment led to a decrease in the apparent electrophoretic mobility of c-raf kinase that partitioned into lipid rafts compared with unstimulated cells. Cholesterol depletion of alpha T3-1 cells using methyl-beta-cyclodextrin disrupted GnRHR but not c-raf kinase association with rafts and shifted the receptor into higher density fractions. Cholesterol depletion also significantly attenuated GnRH but not phorbol ester-mediated activation of extracellular signal-related kinase (ERK) and c-fos gene induction. Raft localization and GnRHR signaling to ERK and c-Fos were rescued upon repletion of membrane cholesterol. Thus, the organization of the GnRHR into low density membrane microdomains appears critical in mediating GnRH induced intracellular signaling.
Journal of Biological Chemistry 09/2003; 278(34):31593-602. · 4.77 Impact Factor
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ABSTRACT: Retinoic acid is known to cause the cell cycle arrest and myeloid differentiation of HL-60 myeloblastic leukemia cells. Evidence suggesting the possible involvement of the Fc gammaRII immunoglobulin receptor in mediating retinoic acid-induced growth arrest and differentiation of HL-60 cells is presented. HL-60 cells stably transfected with the delta205 mutant polyoma middle T antigen, a largely debilitated polyoma middle T antigen, are known to undergo accelerated retinoic acid-induced growth arrest and differentiation compared with parental HL-60 cells. Delta205 transfected cells were compared with parental HL-60 cells by differential display to identify differentially expressed genes, which are regulated downstream of delta205 and might facilitate cellular response to retinoic acid. Differential display revealed that the Fc gammaRII immunoglobulin receptor was differentially expressed. HL-60 cells express Fc gammaRIIA but not Fc gammaRIIB. In parental HL-60 cells, retinoic acid up-regulated Fc gammaRII expression, and Fc gammaRII membrane protein expression increased concomitantly with retinoic acid-induced cell cycle arrest and differentiation. Ectopic expression of Fc gammaRIIa1 in HL-60 cells retarded cellular progression through all phases of the cell cycle. For HL-60 cells stably transfected with Fc gammaRIIa1, onset of retinoic acid-induced growth arrest and differentiation occurred in fewer cell cycles than for parental HL-60 cells. Similar results occurred with 1,25-dihydroxy vitamin D3. Retinoic acid-induced tyrosine phosphorylation of various PAGE-detected protein bands in HL-60 cells was enhanced by cross-linking ectopically expressed Fc gammaRIIa1 receptor. The known retinoic acid-induced sustained activation of various mitogen-activated protein kinase signaling molecules, including extracellular signal-regulated kinase 2, src-like kinases, and adapter molecules, may in part reflect induced expression of Fc gammaRIIA, which is known to activate a similar ensemble of signaling molecules through its ITAM domain. The data suggest that retinoic acid induces increased Fc gammaRIIA expression, which is of functional consequence in eliciting growth arrest and differentiation.
Molecular Cancer Therapeutics 06/2002; 1(7):493-506. · 5.23 Impact Factor
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ABSTRACT: Among the three major mitogen-activated protein kinase (MAPK) cascades—the extracellular signal regulated kinase (ERK) pathway,
the c-JUN N-terminal/stress-activated protein kinase (JNK/SAPK) pathway, and the reactivating kinase (p38) pathway—retinoic
acid selectively utilizes ERK but not JNK/SAPK or p38 when inducing myeloid differentiation of HL-60 human myeloblastic leukemia
cells. Retinoic acid is known to active ERK2. The present data show that the activation is selective for this MAPK pathway.
JNK/SAPK or p38 are not activated by retinoic acid. Presumably because it activates relevant signaling pathways including
MAPK, the polyoma middle T antigen, as well as certain transformation defective mutants thereof, is known to promote retinoic
acid-induced differentiation, although the mechanism of action is not well understood. The present results show that consistent
with the selective involvement of ERK2, ectopic expression of either the polyoma middle T antigen or its dl23 mutant, which
is defective for PLCγ and PI-3 kinase activation, or the Δ205 mutant, which in addition is also weakened for activation of
src-like kinases, caused no enhanced JNK/SAPK or p38 kinase activity that promoted the effects of retinoic acid. However,
all three of these polyoma antigens are known to enhance ERK2 activation and promote differentiation induced by retinoic acid.
Polyoma-activated MAPK signaling relevant to retinoic acid-induced differentiation is thus restricted to ERK2 and does not
involve JNK/SAPK or p38. Taken together, the data indicate that among the three parallel MAPK pathways, retinoic acid-induced
HL-60 myeloid differentiation selectively depends on activating ERK but not the other two MAPK pathways, JNK/SAPK or p38,
with no apparent cross talk between pathways. Furthermore, the striking ability of polyoma middle T antigens to promote retinoic
acid-induced differentiation appears to utilize ERK, but not JNK/SPK or p38 signaling.
In Vitro Cellular & Developmental Biology - Animal 09/1999; 35(9):527-532. · 1.31 Impact Factor
