A point mutation in the LIM domain of Lhx3 reduces activation of the glycoprotein hormone alpha-subunit promoter

Lhx3, a member of the LIM homeodomain family of transcription factors, is required for development of the pituitary in mice. A recent report has described a point mutation in the human LHX3 gene that is associated with a combined pituitary hormone disorder. The mutation is predicted to lead to the replacement of a tyrosine residue with a cysteine in the second LIM domain of LHX3. We have characterized the effects of this point mutation (Y114C) when analyzed in the context of the mouse Lhx3 coding sequence. Mobility shift assays demonstrated that the Lhx3 Y114C mutant is capable of binding DNA, although a decrease in the formation of a specific complex was observed. Transfection assays using an expression vector for either full-length Lhx3 or a GAL4-Lhx3 LIM domain fusion provided evidence that the Lhx3 Y114C mutant has a decreased ability to stimulate transcription. In particular, a GAL4-Lhx3 Y114C LIM mutant was unable to support Ras responsiveness of a modified glycoprotein hormone alpha-subunit reporter gene. Protein interaction studies suggest that the Y114C mutation may modestly reduce binding to the POU transcription factor, Pit-1. Interestingly, the Y114C mutation essentially abrogated binding to the putative co-activator/adapter, selective LIM-binding protein. The findings provide insights into the mechanisms mediating transcriptional activation by Lhx3 and suggest that the observed phenotype of the human mutation probably involves reduced transcriptional activity of the mutant LHX3.

Analysis of the role of the mitogen-activated protein kinase in mediating cyclic-adenosine 3',5'-monophosphate effects on prolactin promoter activity

The mechanisms mediating cAMP effects to stimulate transcription of the PRL gene have been examined. Treatments that elevate intracellular cAMP concentrations were found to stimulate the mitogen-activated protein kinase (MAPK) in GH(3) cells. Elevated cAMP was also found to stimulate activation of the GTP-binding protein, Rap1. Rap1GAP1 reduced cAMP-induced phosphorylation of MAPK, offering evidence that Rap1 may play a role in mediating activation of MAPK. Treatment of GH(3) cells with PD98059, an inhibitor of the MAPK pathway, reduced the ability of forskolin to activate a PRL reporter gene, providing evidence that MAPK contributes to cAMP-mediated effects on the PRL promoter. As previous studies have implicated Ets factor binding sites within the PRL promoter in mediating responses to MAPK, we expected that the Ets sites would also play a role in cAMP responsiveness. Surprisingly, mutation of all of the consensus Ets factor binding sites in the proximal PRL promoter greatly reduced responsiveness to epidermal growth factor (EGF) and TRH but did not reduce cAMP responsiveness. Experiments using an expression vector for adenovirus 12S E1a provided evidence that the coactivators, CREB binding protein and/or p300, probably play a role in cAMP responsiveness of the PRL promoter. Interestingly, the ability of a GAL4-p300 fusion protein to enhance reporter gene activity was stimulated by cAMP in a MAPK-dependent manner. These findings provide evidence for a model for cAMP-induced PRL transcription involving Rap1-induced MAPK activity leading to stimulation of the transcriptional coactivators, CBP and p300.

Thyrotropin-releasing hormone stimulates phosphorylation of the epidermal growth factor receptor in GH3 pituitary cells

TRH has been found to stimulate tyrosine phosphorylation of the epidermal growth factor (EGF) receptor. A specific EGF receptor kinase inhibitor, tyrphostin AG1478, substantially reduced TRH-stimulated tyrosine phosphorylation of the EGF receptor. TRH-induced EGF receptor phosphorylation was found to lead to the recruitment of the adapter proteins Grb2 and Shc. TRH treatment also led to phosphorylation of the related receptor tyrosine kinase, HER2. HER2 activation likely contributes to downstream signaling events and enhances EGF receptor action. TRH-induced tyrosine phosphorylation of the EGF receptor was reduced by incubation with a protein kinase C (PKC) kinase inhibitor, GF109203X. EGF receptor phosphorylation was required for full TRH-induced activation of mitogen-activated protein kinase (MAPK) and stimulation of specific transcriptional responses.

Identification of a conserved protein that interacts with specific LIM homeodomain transcription factors

Lhx3, a member of the LIM homeodomain family of transcription factors, is required for development of the pituitary and is implicated in the transcription of pituitary-specific hormone genes. In this report we describe a novel gene product, SLB, that selectively interacts with Lhx3 and the closely related LIM factor, Lhx4. The SLB cDNA encodes a 1749-residue protein that contains seven WD40 repeats near the amino terminus and a putative nuclear localization signal and does not contain other recognizable motifs. SLB is expressed in a tissue-specific manner with the highest concentrations of SLB mRNA in the testis and pituitary cells. We demonstrate that SLB specifically binds to Lhx3 and Lhx4 with high affinity both in vitro and in vivo. SLB has much lower affinity or no detectable affinity for other LIM domains. An expression vector for a fragment of SLB containing the LIM-interaction domain was shown to reduce expression of Lhx3-responsive reporter genes. The ability of the LIM-interacting domain of SLB to alter reporter gene activity as well as the tissue-specific expression and the specificity of SLB binding to LIM factors suggest a possible role in modulating the transcriptional activity of specific LIM factors.

MRG1 binds to the LIM domain of Lhx2 and may function as a coactivator to stimulate glycoprotein hormone alpha-subunit gene expression

Tissue-specific expression of the alpha-subunit gene of glycoprotein hormones involves an enhancer element designated the pituitary glycoprotein basal element, which interacts with the LIM homeodomain transcription factor, Lhx2. In the present studies we have explored the function of the LIM domain of Lhx2 in stimulating alpha-subunit transcription. When fused to the GAL4 DNA-binding domain, the LIM domain of Lhx2 was shown to contain a transcriptional activation domain. Furthermore, in the context of an alpha-subunit reporter gene in which a GAL4-binding site replaced the pituitary glycoprotein basal element, the LIM domain enhanced both basal and Ras-mediated transcription. In addition, a synergistic response to Ras activation was observed when the Lhx2 LIM domain and the transactivation domain of Elk1 are directed to a minimal reporter gene. A yeast two-hybrid screen identified the recently described melanocyte-specific gene-related gene 1 (MRG1) as an Lhx2 LIM-interacting protein. MRG1 was shown to bind Lhx2 in vitro, and a co-immunoprecipitation assay provided evidence that endogenous MRG1 forms a complex with Lhx2 in alphaT3-1 cells. Expression of MRG1 in alphaT3-1 cells enhanced alpha-subunit reporter gene activity. MRG1 was also shown to bind in vitro to the TATA-binding protein and the transcriptional coactivator, p300. These data suggest a model in which the Lhx2 LIM domain activates transcription through interaction with MRG1 leading to recruitment of p300/CBP and the TATA-binding protein.

Regulation of glycoprotein hormone alpha-subunit gene expression

The appropriate, regulated expression of the glycoprotein hormone subunit genes is required to enable the biosynthesis of luteinizing hormone, follicle-stimulating hormone, thyroid-stimulating hormone, and chorionic gonadotropin. We have focused our attention on mechanisms mediating regulated transcription of the common alpha-subunit gene. Our studies have examined both the signaling mechanisms and the DNA elements and transcription factors that are important for alpha-subunit expression. Our initial efforts involved characterization of DNA elements of the alpha-subunit gene important for basal and GnRH-stimulated expression. Clustered point mutation analysis identified two different, unrelated sequences that play a role in alpha-subunit transcription. When tested as multiple copies on a minimal promoter, one of these elements was sufficient to permit a response to GnRH, while the other enhanced basal expression. Therefore, we designated these DNA elements as the GnRH-response element (GnRH-RE) and the pituitary glycoprotein hormone basal element (PGBE), respectively. The GnRH-RE contains a consensus binding site for the Ets family of transcription factors. As several Ets factors have been shown to mediate transcriptional responses to the mitogen-activated protein kinase (MAPK) pathway, we investigated the possibility that GnRH effects on alpha-subunit transcription may involve the MAPK cascade. We found that GnRH can indeed activate MAPK and that MAPK activation is sufficient and necessary for transcriptional activation of the alpha-subunit gene. Efforts to further characterize proteins that interact with the PGBE led to the cloning of a LIM-homeodomain transcription factor designated LH-2. Recombinant LH-2 selectively binds to the PGBE in vitro. Transfection experiments have shown that an expression vector for LH-2 can activate the alpha-subunit promoter in heterologous cells. LH-2 appears to be a component of the endogenous factors that bind to the PGBE. Thus, LH-2 appears to be an excellent candidate as a factor responsible for basal expression of the alpha-subunit gene. Overall, these studies have contributed to identification of molecular components important for regulated expression of the glycoprotein hormone alpha-subunit gene.

A role for the mitogen-activated protein kinase in mediating the ability of thyrotropin-releasing hormone to stimulate the prolactin promoter

The hypothalamic hormone, TRH, stimulates PRL secretion and gene transcription. We have examined the possibility that the mitogen-activated protein kinase (MAPK) may play a role in mediating TRH effects on the PRL gene. TRH was found to stimulate sustained activation of MAPK in PRL-producing, GH3 cells, consistent with a possible role in transcriptional regulation. A kinase-defective, interfering MAPK kinase (MAPKK) mutant reduced TRH induction of the PRL promoter. Treatment with the MAPKK inhibitor, PD98059, blocked TRH-induced activation of MAPK and also reduced TRH induction of a PRL-luciferase reporter gene, confirming that MAPK activation is necessary for TRH effects on PRL gene expression. Previous studies have demonstrated that the PRL promoter contains binding sites for members of the Ets family of transcription factors, which are important for mediating MAPK responsiveness of the PRL promoter. Mutation of specific Ets sites within the PRL promoter reduced responsiveness to both TRH and MAPK. The finding that DNA elements required for MAPK responsiveness of the PRL gene colocalize with DNA elements required for TRH responsiveness further supports a role for MAPK in mediating TRH effects on the PRL gene. We also explored the signaling mechanisms that link the TRH receptor to MAPK induction. Occupancy of the TRH receptor results in activation of protein kinase C (PKC) as well as increases in the concentration of Ca2+ due to release from intracellular stores and entry of Ca2+ through Ca2+ channels. A PKC inhibitor, GF109203X, and an L-type Ca2+ channel blocker, nimodipine, both partially reduced TRH-induced MAPK activation and PRL promoter activity. The effects of the two inhibitors were additive. These studies are consistent with a signaling pathway involving PKC- and Ca2+-dependent activation of MAPK, which leads to phosphorylation of an Ets transcription factor and activation of the PRL promoter.

Characterization of DNA regions mediating the ability of Ca2+/calmodulin dependent protein kinase II to stimulate prolactin promoter activity

The ability of Ca2+/calmodulin-dependent protein kinases (CaMKs) to regulate transcription of the rat prolactin (PRL) gene has been examined. We found that KN-62, a potent inhibitor of CaM kinases, blunted the ability of TRH to activate the prolactin promoter. Transfection experiments using expression plasmids for constitutively active forms of CaMKI, CaMKII, or CaMKIV show that CaMKII is the most effective activator of prolactin promoter expression. Deletion studies demonstrated that the upstream boundary of sequences necessary to respond to CaMKII is located within the distal enhancer of the prolactin gene. Neither the distal enhancer alone nor the proximal region of the prolactin gene are sufficient to mediate a response to CaMKII. Mutational analysis suggests that several Pit-1 binding sites contribute to CaMKII responsiveness. These findings suggest that CaMKII responsiveness of the prolactin promoter requires multiple factor binding sites in both the distal and proximal regions of the gene.

Regulation of activating transcription factor-1 and the cAMP response element-binding protein by Ca2+/calmodulin-dependent protein kinases type I, II, and IV

The ability of activating transcription factor-1 (ATF1) or the cAMP response element-binding protein (CREB) to enhance transcription can be stimulated by increases in intracellular Ca2+ concentrations. To identify protein kinases which may mediate the ability of Ca2+ to activate these transcription factors, we compared the ability of constitutively active forms of several Ca2+/calmodulin-dependent protein kinases (CaM kinases) to activate ATF1 or CREB. We find that constitutively active CaM kinase I and IV can activate both ATF1 and CREB. In addition, expression vectors for full-length CaM kinase I and IV were able to augment the ability of Ca2+ influx to activate ATF1 or CREB consistent with a role for these kinases in mediating transcriptional responses to Ca2+ signaling. In contrast, CaM kinase II was unable to activate either ATF1 or CREB. These findings provide a potential mechanism that may permit variation in the ability of ATF1 and CREB to respond to changes in intracellular Ca2+ concentrations depending on differences in the relative concentrations of specific CaM kinases.

Two enzymes, both of which process recombination intermediates, have opposite effects on adaptive mutation in Escherichia coli

Reversion of a lac- frameshift allele carried on an F' episome in Escherichia coli occurs at a high rate when the cells are placed under lactose selection. Unlike Lac+ mutations that arise during nonselective growth, the production of these adaptive mutations requires the RecA-RecBCD pathway for recombination. In this report, we show that enzymes that process recombination intermediates are involved in the mutagenic process. RuvAB and RecG, E. coli's two enzymes for translocating Holliday junctions, have opposite effects: RuvAB is required for RecA-dependent adaptive mutations, whereas RecG inhibits them.

In vivo mutational analysis of the DNA binding domain of the tissue-specific transcription factor, Pit-1

Pit-1 is a member of the POU family of transcription factors, which contain a bipartite DNA binding domain. The DNA binding domain consists of a POU-specific domain and a POU homeodomain. Each of the subdomains can interact with DNA independently, but both subdomains are required for high affinity, sequence-specific DNA binding. To examine the contributions of individual amino acids to the function of the DNA binding domain of Pit-1, we developed an approach involving random, in vitro mutagenesis followed by functional screening in Saccharomyces cerevisiae. Using this strategy, we identified a number of point mutations that altered the function of the Pit-1 DNA binding domain. Mutations that altered Pit-1 function were found in both the POU-specific and the POU homeodomain. Most of the mutations involve amino acid residues that are conserved in POU factors. One of the more frequent kinds of mutation affected residues located in the hydrophobic core of the protein. Another common mutation involved amino acids that are thought to make specific contacts with DNA. These mutations define a number of amino acid residues that are important for the function of the DNA binding domain of Pit-1.

A composite Ets/Pit-1 binding site in the prolactin gene can mediate transcriptional responses to multiple signal transduction pathways

Binding sites for the tissue-specific transcription factor, Pit-1, are required for basal and hormonally induced prolactin gene transcription. Although Pit-1 is phosphorylated in response to several signaling pathways, the mechanism by which Pit-1 contributes to hormonal induction of gene transcription has not been defined. Recent reports suggest that phosphorylation of Pit-1 may not be required for hormonal regulation of the prolactin promoter. Analysis of the contribution of individual Pit-1 binding sites has been complicated due to the fact that some of the elements appear to be redundant. To better understand the role of Pit-1 sites in mediating hormonal regulation of the prolactin gene, we have performed enhancer tests using the three most proximal Pit-1 binding sites of the rat prolactin gene which are designated the 1P, 2P, and 3P sites. The results demonstrate that multimers of the 3P Pit-1 binding site are much more responsive to several hormonal and intracellular signaling pathways than multimers of the 1P or 2P sites. The 3P DNA element was found to contain a consensus binding site for the Ets family of proteins. Mutation of the Ets binding site greatly decreased the ability of epidermal growth factor, phorbol esters, Ras, or the Raf kinase to induce reporter gene activity. Mutation of the Ets site had little effect on basal enhancer activity. In contrast, mutation of the consensus Pit-1 binding site in the 3P element essentially abolished all basal enhancer activity. Overexpression of Ets-1 in GH3 pituitary cells enhanced both basal and Ras induced activity from the 3P enhancer. These data describe a composite element in the prolactin gene containing binding sites for two different factors and the studies suggest a mechanism by which Ets proteins and Pit-1 functionally cooperate to permit transcriptional regulation by different signaling pathways.

A role for mitogen-activated protein kinase in mediating activation of the glycoprotein hormone alpha-subunit promoter by gonadotropin-releasing hormone

Gonadotropin-releasing hormone (GnRH) interacts with a G protein-coupled receptor and increases the transcription of the glycoprotein hormone alpha-subunit gene. We have explored the possibility that mitogen-activated protein kinase (MAPK) plays a role in mediating GnRH effects on transcription. Activation of the MAPK cascade by an expression vector for a constitutively active form of the Raf-1 kinase led to stimulation of the alpha-subunit promoter in a concentration-dependent manner. GnRH treatment was found to increase the phosphorylation of tyrosine residues of MAPK and to increase MAPK activity, as determined by an immune complex kinase assay. A reporter gene assay using the MAPK-responsive, carboxy-terminal domain of the Elk1 transcription factor was also consistent with GnRH-induced activation of MAPK. Interference with the MAPK pathway by expression vectors for kinase-defective MAPKs or vectors encoding MAPK phosphatases reduced the transcription-stimulating effects of GnRH. The DNA sequences which are required for responses to GnRH include an Ets factor-binding site. An expression vector for a dominant negative form of Ets-2 was able to reduce GnRH effects on expression of the alpha-subunit gene. These findings provide evidence that GnRH treatment leads to activation of the MAPK cascade in gonadotropes and that activation of MAPK contributes to stimulation of the alpha-subunit promoter. It is likely that an Ets factor serves as a downstream transcriptional effector of MAPK in this system.

An inactivating point mutation demonstrates that interaction of cAMP response element binding protein (CREB) with the CREB binding protein is not sufficient for transcriptional activation

The cAMP response element binding protein (CREB) mediates transcriptional activation in response to the cAMP signaling pathway. Several recent studies have suggested that phosphorylation-dependent interaction of CREB with a co-activator designated CREB binding protein (CBP) is a crucial step in mediating transcriptional responses to cAMP. In the present study we have determined that replacement of Ser142 of CREB with Asp greatly decreases the ability of the cAMP-dependent protein kinase to activate CREB. As Ser142 is located within the region of CREB that interacts with CBP, it seemed quite likely that mutations at this site might interfere with binding to CBP. However, both in vitro and in vivo protein-protein interaction assays revealed that replacement of Ser142 with Asp does not interfere with the binding of CREB to CBP. These studies argue strongly that although the binding of CREB to CBP is necessary, it is not sufficient for transcriptional responses to cAMP.

Multiple Pit-1-binding sites facilitate estrogen responsiveness of the prolactin gene

Previous studies have shown that estrogen responsiveness of the rat PRL gene requires the presence of both the estrogen receptor and the tissue-specific transcription factor, Pit-1. To examine the contribution of individual Pit-1-binding sites in permitting an estrogen response, we mutated specific sites in both the proximal and distal regions of the rat PRL gene. The studies reveal that mutation of Pit-1-binding sites in either the proximal or the distal region can have an effect on estrogen responsiveness. The most important Pit-1-binding site appears to be the site in the distal enhancer, which is adjacent to the estrogen receptor-binding site. However, mutation of combinations of other Pit-1-binding sites reveals that these sites also contribute to the estrogen response of the PRL gene. The binding sequences for another transcription factor cannot substitute for Pit-1 sites in bringing about a wild-type estrogen response, as shown by replacement of Pit-1-binding sites with a consensus cAMP-responsive element. Conversion of the imperfect palindromic estrogen response element of the PRL gene to a perfect palindrome eliminated the positive effects of an intact 1D Pit-1-binding site. To examine potential physical interactions between the estrogen receptor and Pit-1, a protein interaction assay was performed. The results demonstrate that labeled estrogen receptor can bind to Pit-1 immobilized on glutathione agarose beads. However, most of the interaction between Pit-1 and the estrogen receptor appears to be DNA dependent.(ABSTRACT TRUNCATED AT 250 WORDS)

Thyrotropin releasing hormone stimulates transient phosphorylation of the tissue-specific transcription factor, Pit-1

The hypothalamic hormone, thyrotropin releasing hormone (TRH), stimulates prolactin (PRL) secretion and gene transcription in the GH3 pituitary cell line. Several studies have provided indirect evidence that phosphorylation of the pituitary-specific transcription factor Pit-1 may mediate TRH effects on PRL transcription. In the present study we have investigated the ability of TRH to alter the phosphorylation of Pit-1. In vivo 32P labeling experiments demonstrated that TRH stimulated a transient phosphorylation of Pit-1, reaching a maximum in 5 min and returning to basal levels within 30 min. Phosphopeptide mapping experiments demonstrated that TRH induced the transient phosphorylation of specific sites in Pit-1. TRH-stimulated phosphorylation of Pit-1 was blocked by treatments that deplete the cellular content of protein kinase C. Metabolic labeling and Western blot analysis demonstrate that TRH does not alter the total cellular content or nuclear concentration of Pit-1. TRH-mediated stimulation of a PRL promoter-luciferase fusion gene occurred under conditions that blocked the transient phosphorylation of Pit-1. These studies suggest that phosphorylation of Pit-1 may not be necessary for TRH mediated enhancement of PRL gene transcription.

Differential activation of CREB by Ca2+/calmodulin-dependent protein kinases type II and type IV involves phosphorylation of a site that negatively regulates activity

The cAMP response element-binding protein (CREB) has been shown to mediate transcriptional activation of genes in response to both cAMP and calcium influx signal transduction pathways. The roles of two multifunctional calcium/calmodulin-dependent protein kinases, CaMKIV and CaMKII, were examined in transient transfection studies that utilized either the full-length or the constitutively active forms of these kinases. The results indicate that CaMKIV is much more potent than CaMKII in activating CREB in three different cell lines. It was also found in these studies that Ser133 of CREB is essential for its activation by CaMKIV. Because both CaMKII and CaMKIV can phosphorylate CREB, we pursued further the mechanism by which CaMKII and CaMKIV differentially regulate CREB activity. Mutagenesis studies and phosphopeptide mapping analysis demonstrated that in vitro, CaMKIV phosphorylates CREB at Ser133 only, whereas CaMKII phosphorylates CREB at Ser133 and a second site, Ser142. Transient transfection studies revealed that phosphorylation of Ser142 by CaMKII blocks the activation of CREB that would otherwise occur when Ser133 is phosphorylated. When Ser142 was mutated to alanine, CREB was activated by CaMKII, as well as by CaMKIV. Furthermore, mutation of Ser142 to alanine enhanced the ability of Ca2+ influx to activate CREB, suggesting a physiological role for the phosphorylation of Ser142 in modulation of CREB activity. These data provide evidence for a new mechanism for regulation of CREB activity involving phosphorylation of a negative regulatory site in the transcriptional activation domain. The studies also provide new insights into possible interactions between the cAMP and Ca2+ signaling pathways in the regulation of transcription. In particular, changes in intracellular Ca2+ have the potential to either inhibit or augment the ability of cAMP to stimulate transcription, depending on the presence of specific forms of Ca2+/calmodulin-dependent protein kinases.

Pit-1 binding sites mediate transcriptional responses to cyclic adenosine 3',5'-monophosphate through a mechanism that does not require inducible phosphorylation of Pit-1

The ability of Pit-1 to mediate transcriptional responses to cAMP has been explored. To test the ability of Pit-1 to mediate transcriptional responses to cAMP, an expression vector was prepared for a mutant Pit-1 in which the major sites of phosphorylation by the cAMP-dependent protein kinase were eliminated. Before using the mutant Pit-1 to study transcriptional regulation, we first examined the ability of the protein to be phosphorylated in vivo in response to cAMP. Transfection and in vivo labeling experiments confirmed that the mutant Pit-1 did not support cAMP-inducible phosphorylation. The ability of the wild type or mutant Pit-1 to mediate transcriptional responses to cAMP was assessed in cotransfection experiments using reporter genes containing either the proximal region of the rat PRL gene or seven copies of a Pit-1 binding site placed upstream of a minimal promoter. Surprisingly, the wild type and mutant Pit-1 expression vectors supported similar responses to cAMP. To further assess the ability of Pit-1 to mediate responses to cAMP, a GAL4-Pit-1 fusion gene was prepared. Although a GAL4-cAMP response element binding protein fusion gene was found to permit transcriptional responses to cAMP, the GAL4-Pit-1 gene was unresponsive. These findings demonstrate that although Pit-1 can facilitate the ability of the PRL promoter to respond to cAMP, phosphorylation of Pit-1 is not required for this response. It seems likely that additional factors that interact with Pit-1 binding sites are important for mediating transcriptional responses to cAMP.

Activation of the glycoprotein hormone alpha-subunit promoter by a LIM-homeodomain transcription factor

Recently, a pituitary-specific enhancer was identified within the 5' flanking region of the mouse glycoprotein hormone alpha-subunit gene. This enhancer is active in pituitary cells of the gonadotrope and thyrotrope lineages and has been designated the pituitary glycoprotein hormone basal element (PGBE). In the present studies, we sought to isolate and characterize proteins which interact with the PGBE. Mutagenesis experiments identified a 14-bp imperfect palindrome that is required for binding of a factor which is present in cells of gonadotrope and thyrotrope lineages but not in other cells. Screening of a mouse cDNA library with a DNA probe containing the imperfect palindrome resulted in the isolation of a LIM-homeodomain transcription factor. The cDNA predicts a mouse protein which is 94% identical to the recently described rat LIM-homeodomain protein LH-2. LH-2 contains two zinc fingers (LIM domain) and a consensus homeodomain. Hybridization analysis revealed relatively high expression of LH-2 mRNA in the central nervous system and in pituitary cells of the gonadotrope and thyrotrope lineages. Lower or nondetectable levels of LH-2 mRNA were found in other pituitary cells and tissues, including placental cells. Recombinant LH-2 homeodomain was found to selectively bind to the previously identified imperfect palindrome in the PGBE. Point mutations in the PGBE resulted in parallel losses in the binding of a nuclear factor from a cell line of the gonadotrope lineage and recombinant LH-2-binding activity. Use of an antibody to LH-2 provided evidence that endogenous PGBE-binding activity from cells of the gonadotrope lineage involves a protein which is immunologically related to LH-2. Expression of LH-2 in two heterologous cell types resulted in activation of a reporter gene containing the mouse alpha promoter. These data suggest that the LIM-homeodomain factor LH-2 plays a role in stimulating tissue-specific expression of the mouse glycoprotein hormone alpha subunit. The finding that a LIM-homeodomain protein can stimulate expression of one of the earliest markers of pituitary differentiation raises the possibility that this factor plays a role in cell lineage determination in the pituitary.

Involvement of a cAMP-responsive DNA element in mediating TRH responsiveness of the human thyrotropin alpha-subunit gene

TRH is known to stimulate the transcription of the TSH gene in pituitary cells. To examine TRH-responsive elements of the human TSH alpha-subunit gene, we have used transient transfection of GH3 rat pituitary tumor cells. Using this system, TRH treatment stimulated expression of a reporter gene containing 846 base pairs from the 5'-flanking region of the human glycoprotein hormone alpha-subunit gene linked to luciferase. Analysis of 5'-deletions of the alpha-subunit sequence revealed that at least two DNA regions with upstream limits between positions -223 to -190 and positions -151 to -135 are important for regulation by TRH. The more proximal region includes a previously defined cAMP-response element (CRE) while the more upstream region contains an element with sequence similarity to the binding site for the pituitary transcription factor, Pit-1. The TRH responsiveness of each individual region was tested by inserting fragments upstream of a thymidine kinase-luciferase reporter gene. The -151 to -100 region had basal enhancer activity and permitted a 3.4-fold response to TRH. The -223 to -168 region did not permit a TRH response, but possessed basal enhancer activity. The combination of both regions resulted in a 5-fold stimulation by TRH. To assess the contributions of different signal transduction pathways, various combinations of treatments were examined. Combined treatment with TRH and forskolin led to an additive activity. Treatment with TRH plus phorbol 12-myristate-13-acetate resulted in the same level of reporter gene activity as with either agent alone.(ABSTRACT TRUNCATED AT 250 WORDS)

The FSH beta-subunit promoter directs the expression of Herpes simplex virus type 1 thymidine kinase to the testis of transgenic mice

The bovine FSH beta-subunit promoter (2.3 kb) was coupled to the coding sequence of the Herpes simplex virus type 1 thymidine kinase (HSV-tk) gene and introduced into mouse embryos. A full-length tk transcript was found in the pituitary and testis. In the testis an additional truncated version of tk mRNA was also expressed. Two sets of primer extension fragments were identified, one corresponding to transcription initiation at or near the cap site of the FSH-beta gene, the other to transcription initiation within the tk gene. Furthermore, the latter, shorter transcript contained a 227 bp deletion. Only the long transcript was translated into immunoreactive tk in the later stages of developing spermatids. The tk protein was also functional in the testes, since spermatogenesis was either arrested or the germinal epithelium almost completely destroyed in transgenic males treated with the antiherpetic agent. If the FSH-beta-HSV-tk transgene also functions correspondingly in the pituitary, these mice will provide a useful model for studies on FSH.

Two different DNA elements mediate gonadotropin releasing hormone effects on expression of the glycoprotein hormone alpha-subunit gene

Transient transfection studies using gonadotrope-derived, alpha T3-1 cells were used to determine the DNA sequences of the mouse glycoprotein hormone alpha-subunit gene that mediate the transcriptional response to gonadotropin releasing hormone (GnRH). The roles of phorbol esters and cyclic AMP in mediating the GnRH response were also investigated. The initial studies demonstrated that a construct containing approximately 500 base pairs of alpha-subunit flanking sequence was sufficient to mediate responses to a GnRH agonist (GnRHa), phorbol myristate acetate (PMA) and a cAMP analog. Responses to combinations of cAMP and GnRHa or cAMP and PMA were approximately additive, whereas the response to the combination of GnRHa and PMA was similar to that seen with either of the agents alone. Cotransfection studies with an expression vector for the heat-stable inhibitor of the cAMP-dependent protein kinase demonstrated that GnRHa and PMA responses are not dependent on the cAMP-dependent kinase. Deletion analysis indicated that sequences between -507 and -205 were involved in mediating responses to GnRHa and PMA. To determine if this region alone could support responses to these agents, the -507 to -205 region was linked to a minimal promoter and tested in transient transfections. The results demonstrated that this region supports responses to GnRHa, PMA, and cAMP. Clustered point mutations of this region were used to further characterize sequences involved in the GnRH response. Mutations in two regions, one at positions -406 to -399 and one at positions -337 to -330, resulted in decreased responses to GnRH and PMA. There is no obvious sequence similarity between the two regions that are required for the GnRH response. An enhancer test demonstrated that multimers of the -416 to -385 region were able to function as a GnRH-responsive element when linked to a minimal promoter, although a single copy of this region was not sufficient to permit a response to GnRH. In contrast, multimers of the -344 to -300 region did not permit a response to GnRH, but enhanced basal transcription. These findings are consistent with the identification of a two-component GnRH response unit, which probably involves the functional cooperation of two different transcription factors. The observation that GnRH responsiveness appears to co-localize with PMA responsiveness suggests that GnRH effects on the alpha-subunit transcription are likely mediated by the protein kinase C pathway.

The alpha- and beta-isoforms of the inhibitor protein of the 3',5'-cyclic adenosine monophosphate-dependent protein kinase: characteristics and tissue- and developmental-specific expression

The inhibitor protein (PKI) of the cAMP-dependent protein kinase was first characterized from rabbit skeletal muscle. More recently a form of PKI was isolated and cloned from rat testis which shares relatively limited amino acid sequence with the rabbit skeletal muscle form. We have now isolated a cDNA from rat brain which encodes a protein corresponding to the rabbit skeletal muscle PKI. This establishes the presence of the "skeletal muscle" and "testis" proteins in the same species and therefore that they clearly represent distinct isoforms. We have also demonstrated that the isoform from testis, like the skeletal muscle isoform, is specific for the cAMP-dependent protein kinase and that it is able to inhibit this enzyme when expressed in cultured JEG-3 cells. Both forms contain the five specific amino acid recognition determinants which have been shown to be required for high affinity binding to the protein kinase catalytic site, although there is some noted lack of conservation of codons used for these residues. Overall, the two rat isoforms are only 41% identical at the amino acid level and 46% at the level of coding nucleotides. We propose that the rabbit skeletal muscle and rat testis forms be designated PKI alpha and PKI beta, respectively. Using Northern blot analysis, we have examined the tissue distribution of the two forms in the rat and their relative expression during development. In the adult rat, mRNA of the PKI alpha species is highest in muscle (both skeletal and cardiac) and brain (cortex and cerebellum).(ABSTRACT TRUNCATED AT 250 WORDS)

Phosphorylation of cyclic adenosine 3',5'-monophosphate (cAMP) response element-binding protein isoforms by the cAMP-dependent protein kinase

The cAMP response element-binding protein (CREB) mediates transcriptional activation of genes in response to the cAMP signal transduction pathway. There are two different isoforms of CREB, which are generated by alternative RNA splicing. There is evidence that the two isoforms may have different biological activities. As the longer isoform (CREB341) contains a potential phosphorylation site that is not present in the shorter isoform (CREB327), we examined the possible differential phosphorylation of the two CREB isoforms. Recombinant CREB was prepared and used as substrate for phosphorylation by the cAMP-dependent protein kinase in vitro. Phosphopeptide mapping and mutagenesis studies demonstrated that CREB341 contains two sites, serine 133 and serine 98, that can be phosphorylated in vitro by the catalytic subunit of the cAMP-dependent protein kinase. In contrast, CREB327 contains only a single phosphorylation site at serine 119 (equivalent position to serine 133 in CREB341). A kinase titration experiment demonstrated that serine 98 of CREB341 was phosphorylated only at relatively high concentrations of the cAMP-dependent protein kinase. Transient transfection studies were used to test for any possible function of the phosphorylation of serine 98 of CREB341. These studies used GAL4-CREB fusion proteins. We found that mutation of serine 98 to alanine (which would block phosphorylation) has little or no effect on the ability of the CREB fusion protein to activate transcription. These findings suggest that differences in the biological activity of the two CREB isoforms are probably not mediated by differential phosphorylation by the cAMP-dependent protein kinase.

Effect of the thermostable protein kinase inhibitor on intracellular localization of the catalytic subunit of cAMP-dependent protein kinase

cAMP-dependent protein kinase mediates a variety of cellular responses in most eukaryotic cells. Many of these responses are cytoplasmic, whereas others appear to require nuclear localization of the catalytic subunit. In order to understand further the molecular basis for subcellular localization of the catalytic subunit, the effect of the heat stable protein kinase inhibitor (PKI) was investigated. The subcellular localization of the catalytic (C) subunit was determined both in the presence and absence of PKI, by microinjecting fluorescently labeled C subunit into single living cells. When injected alone, a significant fraction of the dissociated C subunit localized to the nucleus. When coin-injected with an excess of PKI, little of the C subunit localized to the nucleus, suggesting that accumulation of catalytic subunit in the nucleus requires either enzymatic activity or a nuclear localization signal. Inactivation of the catalytic subunit in vitro by treatment with N-ethylmaleimide did not prevent localization in the nucleus, indicating that enzymatic activity was not a prerequisite for nuclear localization. In an effort to search for a specific signal that might mediate nuclear localization, a complex of the catalytic subunit with a 20-residue inhibitory peptide derived from PKI (PKI(5-24)) was microinjected. In contrast to intact PKI, the peptide was not sufficient to block nuclear accumulation. In the presence of PKI(5-24), the C subunit localized to the nucleus in a fashion analogous to that of dissociated, active C subunit despite evidence of no catalytic activity in situ. Thus, nuclear localization of the C subunit appears to be independent of enzymatic activity but most likely dependent upon a signal. The signal is apparently masked by both the regulatory subunit and PKI but not by the inhibitory peptide.

Analysis of DNA sequences required for pituitary-specific expression of the glycoprotein hormone alpha-subunit gene

Transient transfection studies have been used to determine the DNA sequences of the glycoprotein hormone alpha-subunit gene that are required for tissue-specific expression. In the initial phase of these studies, a variant mouse alpha gene was identified which contains a fully palindromic cAMP response element (CRE). The corresponding region of a previously cloned and sequenced mouse alpha gene contains a single point mutation that disrupts the symmetrical nature of this element. DNase footprint studies demonstrate that the fully palindromic CRE binds the CRE-binding protein with much higher affinity than the imperfect palindrome. Transfection experiments using both mouse alpha gene variants demonstrate differences in basal and cAMP-induced expression. Studies of the cAMP response of the human alpha gene indicated that this gene contains sequences other than the known CRE that are sufficient to permit a transcriptional response to cAMP in both placental and pituitary cells. Expression of human and mouse alpha-subunit genes has been examined in cells of the gonadotrope, thyrotrope, and trophoblast lineages to identify DNA sequences that mediate selective transcription of the alpha gene in these cells. The results demonstrate that sequences between about -500 and -200 are important for expression in the pituitary, but not the placenta. Clustered point mutations were used to further characterize sequences required for expression in the pituitary. Two regions, one at positions -445 to -438 and one at positions -337 to -330, were required for expression in cells of the gonadotrope lineage. One of these regions, at -337 to -330, is also important for expression in thyrotropes. When linked to a minimal promoter, multiple copies of the -344 to -300 region had transcriptional enhancer activity in gonadotropes and thyrotropes, but not in several other cell types. These results are consistent with a model involving different combinations of regulatory elements that determine cell-specific alpha expression in gonadotropes and thyrotropes.

Characterization of a non-tissue-specific, 3',5'-cyclic adenosine monophosphate-responsive element in the proximal region of the rat prolactin gene

The nature of a DNA element located in the -100 to -85 region of the rat PRL gene has been characterized. Previous studies demonstrated that this region may contribute to basal and hormonally regulated expression of the PRL gene. As this region contains a sequence with similarity to a consensus cAMP-responsive element (CRE), a possible role for the cAMP response element binding protein (CREB) has been explored. A point mutation which made the PRL CRE-like sequence less like a consensus CRE had little effect on basal or cAMP-stimulated expression of a PRL-luciferase reporter gene. DNase footprint studies demonstrated that the proximal region of the PRL gene does not contain a high affinity CREB binding site. Mobility shift experiments demonstrated that the major GH3 nuclear protein which interacts with the -100 to -85 region of the PRL gene in vitro is not CREB. Transfection of a dominant inhibitor of CREB action had little or no effect on expression of an indicator gene containing the PRL proximal region. Thus, the PRL proximal region does not contain a high affinity CREB binding site, and it is unlikely that CREB plays a major role in expression of the PRL gene. The functional capabilities of the -100 to -85 region of the PRL gene were then tested in a transfection assay. Synthetic multimers of this region were found to be sufficient to permit a transcriptional response to cAMP or TRH in GH3 cells and cAMP in Rat-1 cells.(ABSTRACT TRUNCATED AT 250 WORDS)

SIIp: a unique secretogranin/chromogranin of the pituitary released in response to gonadotropin-releasing hormone

A monoclonal antibody prepared by immunization of mice with a rat pituitary granule fraction stained a single band on a Western blot of pituitary homogenate (bovine, ovine, porcine, or rat) with an apparent mol wt of 78,000 (7.5% acrylamide gel in sodium dodecyl sulfate) and pI 5.0-5.1 (isoelectric focusing). Subcellular fractionation studies of rat pituitaries indicated that the determinant of the monoclonal antibody was markedly enriched in the secretory granule fraction, an observation that was independently confirmed by immunohistochemistry of intact cells. Immunohistochemistry also indicated that this determinant was selectively located in gonadotropes and thyrotropes. On Western blots, this band comigrated with adrenal secretogranin-II (SII; chromogranin-C), had the same N-terminal sequence (six amino acids), and was heat stable (95 C; 10 min). The pituitary protein containing the determinant for the monoclonal antibody could be precipitated by a polyclonal antibody prepared by immunization of rabbits with the C-terminal sequence of adrenal SII (triodecapeptide). Conversely, the monoclonal antibody precipitated the protein containing the determinant for the polyclonal antibody. While both the monoclonal and polyclonal antisera recognized the pituitary molecule, only the polyclonal antibody recognized SII from the adrenal. A RIA was established and used to assess the release pattern of this molecule from pituitary cell cultures. Release was stimulated by GnRH and blocked by a GnRH antagonist. Release was Ca2+ dependent and stimulated by either phorbol myristyl acetate (a protein kinase-C activator) or NaF (a G-protein activator). GHRH and TRH were not as effective secretogogues as GnRH. The observations that a unique form of SII is present in the pituitary gonadotrope and secreted in response to a specific endocrine stimulus present the possibility that this substance has an endocrine function. Further, the tissue specificity of the determinant suggest that it may be useful for the specific diagnosis and monitoring of pituitary tumors.

Analysis of functional cooperativity between individual transcription-stimulating elements in the proximal region of the rat prolactin gene

The proximal region of the rat PRL gene contains at least five transcription-stimulating elements that are located within a 170-basepair region up-stream of the TATA box. These cis-acting elements include four binding sites for the pituitary-specific transcription factor Pit-1 as well as another site for an unidentified factor. In this study interactions between different DNA elements have been examined through the construction of PRL-luciferase fusion genes containing mutations that disrupt various combinations of the individual DNA elements. In general, the disruption of multiple factor-binding sites had a much more than additive effect on expression of the luciferase constructs. Interestingly, comparison of the effects of disrupting pairs of binding sites demonstrated substantial differences in the effects of different combinations of mutations, suggesting that cooperative interactions may reflect specific interactions. Mutations that disrupted all five cis-elements of the PRL proximal region essentially abolished transcription from the proximal promoter. This finding suggests that there are no other DNA elements within the proximal 200 basepairs of the PRL gene that can independently stimulate transcription. Although there is strong functional cooperativity between different cis-elements in the PRL gene, DNase footprint studies failed to detect cooperative binding between different Pit-1 elements. Overall, the findings demonstrate that the normal transcription of the PRL gene involves strong cooperative interactions between individual DNA elements in the proximal region.

Identification and regulation of the cystic fibrosis transmembrane conductance regulator-generated chloride channel

Cystic fibrosis transmembrane conductance regulator (CFTR) generates cAMP-regulated Cl- channels; mutations in CFTR cause defective Cl- channel function in cystic fibrosis epithelia. We used the patch-clamp technique to determine the single channel properties of Cl- channels in cell expressing recombinant CFTR. In cell-attached patches, an increase in cellular cAMP reversibly activated low conductance Cl- channels. cAMP-dependent regulation is due to phosphorylation, because the catalytic subunit of cAMP-dependent protein kinase plus ATP reversibly activated the channel in excised, cell-free patches of membrane. In symmetrical Cl- solutions, the channel had a channel conductance of 10.4 +/- 0.2 (n = 7) pS and a linear current-voltage relation. The channel was more permeable to Cl- than to I- and showed no appreciable time-dependent voltage effects. These biophysical properties are consistent with macroscopic studies of Cl- channels in single cells expressing CFTR and in the apical membrane of secretory epithelia. Identification of the single channel characteristics of CFTR-generated channels allows further studies of their regulation and the mechanism of ion permeation.

The tissue-specific mammalian transcription factor, Pit-1, activates transcription in Saccharomyces cerevisiae

Pit-1 is a tissue-specific transcription factor which binds to specific DNA sequences within 5' flanking regions of the PRL and GH genes and activates the transcription of these genes. Previous studies have shown that expression of Pit-1 is necessary to activate transcription from the PRL or GH promoters in heterologous mammalian cells. In the present study the ability of Pit-1 expression vectors to activate expression of reporter genes in Saccharomyces cerevisiae was examined. The test system used Pit-1 expression vectors and an indicator plasmid containing multiple copies of a Pit1-binding site as a replacement for the upstream activator sequence of the CYC1 promoter. Significant activation of indicator plasmid expression was detected only in the presence of functional Pit-1 expression vectors. In both mammalian and yeast cells, amino-terminal deletions of the Pit-1 coding sequence produced similar and gradual loss of transcriptional activation. This finding indicates that similar or identical regions of Pit-1 are required for transcriptional activation in mammalian and yeast cells. Although synthetic DNA elements containing multiple copies of a single Pit-1-binding site were sufficient to permit Pit-1-mediated transcriptional activation in both yeast and mammalian cells, DNA fragments representing the proximal region or distal enhancer region of the PRL gene were transcriptionally active only in mammalian cells. These studies establish the ability of Pit-1 to stimulate transcription in the absence of other tissue-specific factors and provide a system for further genetic studies of Pit-1 structure/function relationships as well as evaluation of target sequences necessary for Pit-1 action.

Expression in Escherichia coli and characterization of the heat-stable inhibitor of the cAMP-dependent protein kinase

Pure heat-stable inhibitor of the cAMP-dependent protein kinase (PKI) has been isolated in high yield by using a bacterial expression vector constructed to synthesize the complete sequence of the rabbit muscle protein kinase inhibitor, plus an amino-terminal initiator methionine and glycine. Bacterially expressed PKI has an inhibitory activity identical to that of the protein isolated from rabbit skeletal muscle and, by gel filtration and gel electrophoresis, has the same physicochemical characteristics as the native physiological form of PKI. Fourier transformed infrared spectroscopy and CD establish that PKI has unusually large amounts of random coil and turn structures, with significantly smaller amounts of alpha-helix and beta structures.

Decreased catalytic subunit mRNA levels and altered catalytic subunit mRNA structure in a cAMP-resistant Chinese hamster ovary cell line

The mechanisms responsible for decreased levels of cAMP-dependent protein kinase activity in a mutant Chinese hamster ovary cell line have been examined. The cAMP-resistant Chinese hamster ovary 10260 cell line was found to possess only 20% of the cAMP-dependent protein kinase activity found in wild-type cells. The presence of decreased concentrations of the catalytic subunit in these cells was confirmed through binding studies using a radiolabeled, heat-stable inhibitor of the kinase. Cloned Chinese hamster ovary catalytic subunit cDNAs were isolated, characterized, and used as hybridization probes to examine the relative concentrations of catalytic subunit mRNAs in the wild-type and 10260 cell lines. A 40-50% decrease in the concentration of the mRNA for the C alpha isozyme of the catalytic subunit was observed in 10260 cells, as compared with wild-type. This decrease in catalytic subunit mRNA concentration probably accounts for a portion of the decreased kinase activity in the mutant cells. Further analysis of C alpha mRNA by polymerase chain reaction confirmed the decreased expression of C alpha mRNA in 10260 cells and further demonstrated the presence of two different species of C alpha mRNA in the 10260 cells. One species of C alpha cDNAs was indistinguishable from the wild-type cDNA, but the other species was shorter. Nucleotide sequence analysis of the amplified cDNAs led to the identification of a 191-base pair deletion in the shorter cDNA. Gene transfer studies using wild-type and 10260 C alpha cDNAs demonstrated that the longer cDNA from the 10260 cells produced wild-type activity, but the shorter cDNA was inactive. These studies suggest that at least two alterations in gene expression are responsible for decreased cAMP-dependent protein kinase activity in the 10260 cell line. One alteration results in an approximately 2-fold decrease in the concentrations of C alpha mRNA in the cells. The other change produces two species of C alpha mRNA; one of the C alpha mRNAs does not encode an active kinase.

Inhibition of cAMP-dependent protein kinase plays a key role in the induction of mitosis and nuclear envelope breakdown in mammalian cells

Inhibiting cAMP-dependent protein kinase (A-kinase) in mammalian fibroblasts through microinjection of a modified specific inhibitor peptide, PKi(m) or the purified inhibitor protein, PKI, resulted in rapid and pronounced chromatin condensation at all phases of the cell cycle. Together with these changes in chromatin, a marked reorganization of microtubule network occurred, accompanied in G2 cells by extensive alterations in cell shape which have many similarities to the premitotic phenotype previously observed after activation of p34cdc2 kinase, including the lack of spindle formation and the persistence of a nuclear envelope. In order to examine whether A-kinase inhibition and p34cdc2 kinase form part of the same or different inductive pathways, PKI and p34cdc2 kinase were injected together. Co-injection of both components resulted in nuclear envelope disassembly, an event not observed with injection of either component alone. This result implies that p34cdc2 and A-kinase inhibition have complementary and additive effects on the process of nuclear envelope breakdown in living fibroblasts, a conclusion further supported by our observation of a pronounced dephosphorylation of lamins A and C in cells after injection of PKi(m). Taken together, these data suggest that down-regulation of A-kinase is a distinct and essential event in the induction of mammalian cell mitosis which co-operates with the p34cdc2 pathway.

Regulation of the alpha inhibin gene by cyclic adenosine 3',5'-monophosphate after transfection into rat granulosa cells

Inhibin gene expression in the ovary is stimulated by FSH, which uses cAMP as an intracellular second messenger. To examine further the transcriptional regulation of the alpha inhibin gene by FSH and cAMP, we have isolated and characterized a genomic clone that contains the entire rat alpha inhibin gene. Sequence analysis of the alpha inhibin promoter region revealed several potential cAMP response elements (CREs) and transcription factor AP2-binding sites that might mediate cAMP regulation. To determine the functional importance of these sequences, fusion genes including the alpha inhibin 5' flanking region linked to a luciferase reporter gene were transiently transfected into primary granulosa cells isolated from immature rats. These fusion genes were both expressed and regulated by the adenylyl cyclase activator forskolin in transfected granulosa cells. Analysis of a series of 5' deletion mutants indicated that a construct containing as little as 170 basepairs up-stream of the alpha inhibin start site, which includes a single imperfect CRE and no AP2 sites, was regulated by forskolin. DNAse footprinting was used to demonstrate that bacterially expressed CRE-binding protein (CREB) binds to this CRE located 122 basepairs up-stream of the alpha inhibin gene transcriptional start site. To investigate further the role of this CRE in alpha inhibin gene expression, site-specific mutagenesis of the CRE was performed. The alpha inhibin promoter containing a mutated CRE was not regulated by forskolin in granulosa cells and did not bind the CREB protein. Interestingly, mutation of the CRE also substantially reduced basal expression of the alpha inhibin promoter. Lastly, a gel mobility shift assay was used to examine CRE-binding proteins from granulosa cell extracts. Granulosa cells contain a protein that specifically interacts with CRE-containing oligonucleotides or with the alpha inhibin promoter and that is recognized by antibodies against the CREB protein. Our results suggest that CREB or related transcription factors play an important role in both basal and cAMP-regulated expression of the alpha inhibin gene in ovarian granulosa cells.

Fetal development and neuronal/glial cell specificity of cAMP-dependent protein kinase subunit mRNAs in rat brain

All known actions of cAMP in the brain require cAMP-dependent protein kinase (cAMPdPK), which consists of regulatory (R) and catalytic (C) subunits (R2C2). Using homologous rat cDNAs for all known cAMPdPK subunit isoforms found in the brain (RI alpha, RI beta, RII alpha, RII beta, C alpha, C beta) we observe that, in the fetal rat brain from 12 days of gestation to birth, while alpha subunit (RI alpha, RII alpha, C alpha) mRNA levels are abundant, beta subunit (RI beta, RII beta, C beta) mRNA levels increase from undetectable or very low levels to abundant levels. Furthermore, while alpha subunit mRNA levels are abundant in both primary neuronal and primary glial cultures, beta subunit mRNA levels are very low (C beta) or undetectable (RI beta, RII beta) in primary glial cultures, but are abundant in primary neuronal cultures. Thus, prior to about 12 days of gestation, cAMP in the brain may act only via the alpha cAMPdPK subunits in neuronal and glial precursor cells. After 12 days of gestation, coincident with the onset of final cell division in neurons, beta cAMPdPK subunits may also mediate the effects of cAMP predominantly in neurons.

DNA sequences required for expression of the LH beta promoter in primary cultures of rat pituitary cells

To begin analysis of the DNA sequences necessary for luteinizing hormone (LH) gene transcription, fusion genes containing the 5' flanking region of the rat LH beta or the human alpha-subunit gene linked to luciferase were transfected into primary cultures of rat pituitary cells. The LH beta-luciferase construct was expressed in the primary cultures at a level 50 times greater than a promoterless luciferase control plasmid. Little or no expression of the LH beta-luciferase construct was detected following transfection of MCF-7, JAR or GH3 tumor cell lines. Treatment of transfected cells with gonadotropin-releasing hormone resulted in a modest induction of LH beta-luciferase activity. Considerably higher levels of LH beta-luciferase activity were obtained with cultures from ovariectomized rats than were obtained with cultures from intact female rats. Analysis of 5' deletions of the LH beta-luciferase construct demonstrated that activity was well maintained even after substantial deletions. The shortest construct, which contained 75 base pairs of 5' flanking sequence had 38% of the activity of the longest which contained 1.7 kilobase pairs of flanking sequence. These findings demonstrate that transfection of primary cultures of rat pituitary cells may provide a useful system for analysis of the cis-acting sequences and trans-acting factors required for LH gene expression.

Both Pit-1 and the estrogen receptor are required for estrogen responsiveness of the rat prolactin gene

To examine the functional relationship between distinct cis-active elements within the distal enhancer region of the rat PRL gene, we have used deletional and mutational analysis of that region in transient transfection studies in GH3 pituitary tumor cells. Results from these studies demonstrate that the region of the PRL distal enhancer containing the Pit-1-binding sites is critical not only for enhancer activity and the response to cAMP, but also for the response to estradiol. An interaction of the estrogen receptor with factors conferring basal enhancer activity is suggested by studies with a mutant distal enhancer region in which the PRL estrogen response element was converted to a palindromic estrogen response element. To directly examine potential interactions, cotransfection studies using PRL distal enhancer reporter gene constructs and expression vectors for Pit-1 and rat estrogen receptor were performed in two heterologous cell lines. The activity of the reporter gene under the control of the PRL distal enhancer linked to either the thymidine kinase promoter or the PRL proximal promoter was not significantly altered by cotransfection with the Pit-1 expression vector in COS-1 or RAT-1 cells. Coexpression of these reporter constructs and an expression vector for estrogen receptor resulted in only a slight response to estradiol. However, when both Pit-1 and estrogen receptor were cotransfected with the distal enhancer reporter gene, a marked induction was observed in response to estradiol, and this activity was dependent upon the concentration of the Pit-1 expression vector.(ABSTRACT TRUNCATED AT 250 WORDS)

Clustered point mutation analysis of the rat prolactin promoter

To identify DNA regions important for basal and hormone-stimulated transcription of the rat PRL gene, a series of clustered point mutations were prepared within the immediate 5' flanking region. DNA fragments representing the wild-type and 19 different linker-scanner mutations of the PRL gene were each linked to a luciferase marker gene, and the DNA constructs were transferred into GH3 pituitary tumor cells by electroporation. Luciferase activity was determined 24 h after transfection in extracts from control cells or cells treated with 0.5 mM chlorophenylthio-cAMP, 100 nM TRH, or 100 nM phorbol myristate acetate. The individual clustered point mutations covered a region from just up-stream of the TATA box (position -30) to a position 193 basepairs up-stream from the start of transcription. Five regions in which mutations produced substantial decreases in both basal and cAMP-, TRH-, or phorbol ester-stimulated expression of the marker gene were detected. Three of these regions (positions -41 to -58, -113 to -124, and -149 to -156) correspond to previously identified binding sites for the pituitary-specific, homeobox protein, Pit-1/GHF-1. The fourth and fifth regions do not correspond to Pit-1/GHF-1-binding sites and presumably represent sites for an unidentified factor. Within these regions, sequences with some similarity to a consensus cAMP response element and an AP-2-binding site have been detected. These data confirm the importance of Pit-1/GHF-1 as a key factor in PRL gene transcription. In addition, the results suggest that additional transcription factors are probably required for efficient expression of the PRL gene.(ABSTRACT TRUNCATED AT 250 WORDS)

Blockade of low and high threshold Ca2+ channels by diphenylbutylpiperidine antipsychotics linked to inhibition of prolactin gene expression

The effects of diphenylbutylpiperidine (DPBP) antipsychotics on Ca2+ currents and prolactin (PRL) synthesis were studied in rat pituitary growth hormone (GH) cell lines (GH3 and GH4C1). In whole-cell patch-clamp experiments, DPBPs including fluspirilene, penfluridol, and pimozide at concentrations ranging from 0.25 to 5 microM each blocked current through low threshold T-type as well as high threshold L-type channels. Each of the drugs preferentially blocked T-type current, and complete inhibition was observed at concentrations as low as 1 microM. Inhibition of L-type channels by DPBPS was enhanced at depolarized holding potentials and promoted by prolonged channel activation. At concentrations similar to those which blocked Ca2+ currents, each of the three DPBPs markedly reduced basal PRL production by GH cells. PRL synthesis stimulated by the dihydropyridine Ca2+ agonist R5417 or thyrotropin releasing hormone (TRH) was also inhibited. The inhibitory effects of the DPBPs were observed at the level of gene transcription. Penfluridol and fluspirilene inhibited basal, Ca2(+)- and TRH-stimulated expression of a fusion gene construct containing the 5'-flanking sequence of the rat PRL gene linked to the luciferase gene. The effect was concentration-dependent with the IC50 values for both drugs of less than 1 microM. Nimodipine also reduced basal, R5417, and TRH-stimulated expression of the reporter gene construct. Similar results were obtained with a reporter gene construct containing the 5'-flanking sequence of the rat GH gene. The GH luciferase construct was only slightly responsive to R5417 and TRH; however, these responses were reduced by fluspirilene and nimodipine at concentrations of less than 1 microM. These studies demonstrate that the DPBP antipsychotics block T- as well as L-type Ca2+ channels in GH cells and inhibit PRL production at the level of transcription. They also indicate that functioning Ca2+ channels are necessary for TRH-stimulated PRL gene transcription.

Post-transcriptional regulation of cAMP-dependent protein kinase activity by cAMP in GH3 pituitary tumor cells. Evidence for increased degradation of catalytic subunit in the presence of cAMP

The effects of cyclic AMP treatment on total cAMP-dependent protein kinase activity in GH3 pituitary tumor cells have been studied. Incubation of cells for 24 h with 1 microM forskolin resulted in a 50% decrease in total cAMP-dependent protein kinase activity which was reversible upon removal of forskolin from culture media. A similar response was observed in GH3 cells treated with 5 ng/ml cholera toxin and 0.5 mM dibutyryl cAMP but not 0.5 mM dibutyryl cGMP. Northern blot analysis demonstrated that the steady-state level of the mRNA for each of the six kinase subunit isoforms studied was not detectably altered after treatment with 1 microM forskolin for 24 h. The concentration of catalytic subunit was also assessed by binding studies using a radiolabeled heat-stable protein kinase inhibitor. Treatment of GH3 cells with 1 microM forskolin for 24 h reduced protein kinase inhibitor binding activity by 50%, consistent with the observed forskolin-induced decrease in total kinase activity. Analysis of endogenous heat-stable protein kinase inhibitor activity in GH3 cell extracts showed no significant difference between forskolin-treated cells and cells maintained under control conditions. To assess possible effects on catalytic subunit degradation, pulse-chase experiments were performed and radiolabeled catalytic subunit was isolated by affinity chromatography. The results demonstrated that treatment of cells with chlorophenylthio-cAMP detectably increased the apparent degradation of radiolabeled catalytic subunit. The increased degradation of the catalytic subunit was sufficient to account for the observed decreases in kinase activity. These results suggest that relatively long term cAMP treatment can alter total cAMP-dependent protein kinase activity through effects to alter the degradation of the catalytic subunit of the enzyme.

Rat RI beta isoform of type I regulatory subunit of cyclic adenosine monophosphate-dependent protein kinase: cDNA sequence analysis, mRNA tissue specificity, and rat/mouse difference in expression in testis

A rat complementary DNA (cDNA) for the RI beta isoform of type I cyclic adenosine monophosphate (cAMP)-dependent protein kinase regulatory subunit was cloned and sequenced and was found to contain the entire protein coding and 3'-untranslated regions, with a single (ATTAAA) poly-adenylation site. The largest open reading frame was preceded by a short out-of-phase open reading frame, which is not seen in the corresponding mouse RI beta cDNA due to a single base substitution. The rat RI beta cDNA clone was 2,374 bases long and detected a rat mRNA of approximately 2.8 kilobases. Rat RI beta mRNA was abundant in adult rat brain and testis but was undetectable in other rat tissues. The rat RI beta cDNA also detected RI beta mRNA in mouse brain, but not mouse testis, from 10-week-old BALB/c or 10- and 6-week-old Swiss Webster mice. Thus, despite a 96% nucleotide identity in the coding region of RI beta in rat vs. mouse, there are at least two differences in these closely related species. First, there is a short open reading frame, which precedes the coding region in the rat but not the mouse. Second, unlike the mouse testis, the rat testis contains abundant levels of RI beta mRNA.

Pituitary calcium channel modulation and regulation of prolactin gene expression

The dihydropyridine Ca2+ channel modulators (-) Bay K 8644 (R5417) and nimodipine were used to study the role of voltage-gated Ca2+ channels in the regulation of PRL gene transcription in GH3 cells. Fusion constructs containing 5'-flanking sequences from the rat PRL gene linked to either the bacterial chloramphenicol acetyltransferase (CAT) gene or the firefly luciferase gene were transiently expressed in GH3 cells and the transcriptional response to Ca2+ channel modulators was assessed. The Ca2+ channel agonist R5417 enhanced the transcription of a PRL-CAT fusion gene containing 2.5 kilobase (kb) pairs of the 5'-flanking sequence. This response was completely blocked by the Ca2+ channel blocker nimodipine demonstrating that sequences in the PRL 5'-flanking region confer response to Ca2+. Transfection with PRL-CAT constructs containing 2.5 kb to 0.6 kb pairs of 5'-flanking sequence were responsive to Ca2+, although those which contained the distal enhancer region (positions-1765 to -1495) had much higher basal expression. The possibility that the distal enhancer might contain Ca2(+)-responsive elements was tested by comparing the response to R5417 and TRH for both the proximal enhancer region (approximately first 300 base pair of the 5'-flanking sequence) and distal enhancer regions linked to the thymidine kinase promoter and CAT. The results demonstrate that these two regions contribute to the overall transcriptional response to Ca2+ and TRH. The distal region does not confer a response to phorbol ester, while the proximal region is responsive to that treatment.(ABSTRACT TRUNCATED AT 250 WORDS)

Thyroid hormone-responsive elements of the prolactin gene: evidence for both positive and negative regulation

To analyze the regulation of PRL gene expression by thyroid hormone (T3), fusion gene constructs containing various lengths of the rat PRL gene 5'-flanking sequence linked to the bacterial chloramphenicol acetyltransferase (CAT) gene were transfected into the GH3 cell line. Thyroid hormone had no effect on basal or cAMP-stimulated CAT expression in constructs containing more than 1.7 kilobasepairs of the 5'-sequence. However, deletion to 1.5 or 0.6 kilobasepairs resulted in an inhibition of both basal and cAMP-stimulated expression by T3. A construct containing the proximal enhancer region (positions -292 to -38 basepairs) linked to the herpes simplex thymidine kinase promoter (TK) and the CAT reporter gene also responded to T3 with inhibition of basal and cAMP-induced CAT expression. The distal enhancer region (positions -1714 to -1495) linked to thymidine kinase promoter CAT responded to T3 with a stimulation of CAT expression, and the response was additive with the stimulatory response to cAMP. Deletion analysis of the distal enhancer region revealed that the sequence between positions -1530 and -1565 was required for the stimulatory response to T3. The stimulatory response to T3 was additive with the response to estradiol, suggesting distinct elements, but deletion to position -1565 abolished the response to estradiol and permitted an inhibitory response to T3. Mutation of the estrogen response element prevents the response to estradiol, but only blunted the response to T3. Mutation of the sequence GGTCA at positions -1555 to -1551 resulted in an inhibitory response to T3, implicating this sequence in the stimulatory response.(ABSTRACT TRUNCATED AT 250 WORDS)

Both isoforms of the cAMP-dependent protein kinase catalytic subunit can activate transcription of the prolactin gene

Whereas molecular cloning experiments have provided evidence for the presence of two closely related genes for the catalytic subunit of the cAMP-dependent protein kinase, the possible interchangeability of these isoforms in initiating biological processes has not been examined. To test the role of the two forms of the kinase in regulating transcription, expression vectors containing the coding sequence of either kinase have been cotransfected with a fusion gene containing the prolactin promoter coupled to an appropriate marker gene. The results demonstrate that expression vectors for both isoforms of the catalytic subunit are able to increase prolactin promotor activity in a dose-dependent manner. The effects can be observed by measuring either marker gene activity or RNA levels. Transfection of an expression vector encoding an inactive catalytic subunit did not stimulate prolactin promoter activity. The results provide additional evidence for the role of the catalytic subunit of the cAMP-dependent kinase in mediating regulation of specific gene transcription and demonstrate that both forms of the catalytic subunit are capable of participating in the regulation of transcription.

Rapid and profound suppression of messenger ribonucleic acid encoding follicle-stimulating hormone beta by inhibin from primate Sertoli cells

We showed previously that inhibin, partially purified from cynomolgus monkey Sertoli cell culture medium (primate Sertoli cell inhibin referred to as pSCI), selectively suppressed basal FSH secretion from dispersed rat pituitary cells and decreased total cellular FSH, but not LH content, suggesting a decrease in FSH biosynthesis. In order to investigate the mechanism of action of inhibin at the molecular level, we have now examined the effects of pSCI on steady state levels of the subunit mRNAs encoding LH and FSH and correlated these with release and intracellular content of LH, FSH, and glycoprotein alpha-subunit. Dispersed pituitary cells from 7- to 8-week-old adult male rats were cultured in the presence of pSCI or control medium for 2-72 h. FSH secretion was reduced significantly by 6 h (P less than 0.05) and reached a nadir (38% of control) by 48 h. LH secretion was unchanged, while release of the alpha-subunit was decreased to 89% of control at 72 h (P less than 0.05). Also by 72 h, cell content of both FSH (73% of control) and alpha-subunit (81% of control) were significantly suppressed (P less than 0.001, P less than 0.01), while LH was slightly affected. Total RNA was extracted from the pituitary cell cultures, electrophoresed in 1.2% agarose-formaldehyde gels, transferred to nylon membranes, and hybridized with 32P-labeled cDNA probes for the rat alpha-, LH beta-, and FSH beta-subunits.(ABSTRACT TRUNCATED AT 250 WORDS)

A protein kinase inhibitor gene reduces both basal and multihormone-stimulated prolactin gene transcription

The possible role of the catalytic subunit of the cAMP-dependent protein kinase in mediating the regulation of prolactin gene transcription has been investigated through the use of a synthetic gene encoding the heat-stable inhibitor of the cAMP-dependent protein kinase. To assess the effects of protein kinase inhibitor expression on cAMP induction of prolactin gene transcription, a marker gene containing the rat prolactin promoter and adjacent 5'-flanking sequences linked to the bacterial chloramphenicol acetyltransferase gene was cotransfected with a protein kinase inhibitor-expression vector. The results demonstrate that the protein kinase inhibitor-expression vector reduced both basal and cAMP-stimulated expression of the cotransfected prolactin-chloramphenicol acetyltransferase gene. A mutant protein kinase inhibitor-expression vector, coding for an inactive inhibitor protein, did not inhibit basal or cAMP-stimulated prolactin gene transcription. Furthermore, the protein kinase inhibitor-expression vector did not inhibit zinc induction of the metallothionein promoter. Analysis of protein kinase activity in transfected cells demonstrated that the protein kinase inhibitor expression vector reduced cAMP-dependent protein kinase activity but did not reduce protein kinase C activity. Nuclease protection experiments confirmed that the effects of the inhibitor vector involved changes in correctly initiated transcripts produced from the prolactin promoter. Surprisingly, the protein kinase inhibitor-expression vector reduced the effects of several different agents including epidermal growth factor, thyrotropin-releasing hormone, phorbol esters, and estrogen on prolactin gene expression to the same extent as it altered cAMP effects.