UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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Lhx3/LIM-3/P-Lim is a LIM homeodomain transcription factor which is essential in mice for the development of anterior and intermediate lobes of the pituitary gland. We report the cloning and characterization of porcine Lhx3. The porcine Lhx3 protein exhibits strong similarity to murine Lhx3 within the amino terminal LIM domains and the homeodomain, however, it is diverged in regions outside these motifs. Expression vectors for porcine Lhx3 activated murine and porcine alpha-glycoprotein reporter genes in transfection assays, and recombinant porcine Lhx3 protein specifically bound to a target site within the porcine alpha-glycoprotein gene upstream sequence. In addition, porcine Lhx3 synergistically induced transcription from prolactin enhancer/promoter reporter genes in cooperation with the Pit-1 pituitary transcription factor. Porcine Lhx3 protein interacted with Pit-1 protein in solution and also with the LIM domain-binding protein NLI/Lbd1/CLIM. Together, these data indicate that many aspects of Lhx3 function in the mammalian pituitary are conserved and that Lhx3 may be involved in the activation of trophic hormone genes during early and late stages of pituitary organogenesis. Divergence in the Lhx3 amino acid sequence between mammalian species may suggest distinct activities for this protein in some species and may help identify important functional domains of this key developmental transcription factor.
Mol Cell Endocrinol 1999 Jan 25
PMID:Characterization of the porcine Lhx3/LIM-3/P-Lim LIM homeodomain transcription factor. 1019 93

Pit-1, a POU domain-containing transcription factor, is involved in two functions in the pituitary: PRL and GH tissue-specific expression and somatolactotroph cells expansion. To analyze the molecular basis of the latter function, we tested whether Pit-1 can directly transactivate expression of an early marker of cell cycle initiation, the c-fos gene. We show that Pit-1 overexpression in PC12 cells, which do not express Pit-1, increases c-fos expression. Moreover, cAMP-induced c-fos promoter activity is decreased in the somatolactotroph cell line GH3 when Pit-1 expression is reduced by hybrid arrest with an antisense sequence complementary to Pit-1 cDNA. In contrast to hormonal genes regulation, where it has been shown that any Pit-1 phosphorylation site is involved, we show that the Pit-1 phosphorylation sites are required to allow increase of c-fos promoter activity by Pit-1. We further show, by gel shift analyses, that Pit-1 is able to specifically bind the serum response element sequence present within the c-fos promoter but with a lesser affinity than the Pit-1 response element. Taken together, these results demonstrate that the tissue-specific transcription factor Pit-1 is able to enhance expression of genes involved in cell cycle initiation, suggesting that this mechanism allows Pit-1 to increase somato-lactotroph cell proliferation.
Mol Endocrinol 1999 May
PMID:The tissue-specific transcription factor Pit-1/GHF-1 binds to the c-fos serum response element and activates c-fos transcription. 1031 24

The estrogen responsiveness of the rat prolactin gene expression requires the presence of both the estrogen receptor (ER) and the tissue-specific transcription factor, Pit-1 protein. We performed protein interaction assays using anti-rat Pit-1 antiserum (a-rPit-1) to investigate the physical interactions which occur between ER and Pit-1 proteins following estrogen treatment. After fusing maltose binding protein (MBP) and Pit-1 protein, we used the resulting MBP Pit-1 fusion protein to prepare a-rPit-1. Our results show that the estrogen receptor readily co-precipitated with the Pit-1 protein drawn from the lysates of two prolactin-expressing pituitary cell lines GH3 and PR1. The rate of precipitation appears to be both estrogen- and time-dependent. Cellular levels of estrogen receptors and Pit-1 proteins did not show significant changes during the time of estrogen treatment. We therefore suggest that an estrogen-dependent physical interaction between ER and Pit-1 protein exists in vivo, and that this interaction may play an important role in the regulation of prolactin gene expression.
J Steroid Biochem Mol Biol 1999 Feb
PMID:Interaction between estrogen receptor and Pit-1 protein is influenced by estrogen in pituitary cells. 1036 12

Transcriptional responses to estrogens are controlled by the cell- and gene-specific interactions of the nuclear estrogen receptor (ER) with cofactors and other transcription factors. The pituitary-specific PRL enhancer/promoter is regulated by estrogens only when it is bound by both ER and the pituitary-specific transcription factor, Pit-1. Cooperative ER/Pit-1 activation of the dormant PRL enhancer/promoter in pituitary progenitor cells requires the estrogen-dependent activation function-2 (AF-2) of ER, but is inhibited by one AF-2-interacting cofactor, RIP140. Here, the complex actions of RIP140 and other AF-2-interacting proteins at the PRL enhancer/promoter were shown to operate via ER itself. RIP140 inhibition of ER/Pit-1 activation in the absence of AF-1 and RIP140 inhibition of both ER alpha and ER beta cooperative activation with Pit-1 suggested a conserved ER site for RIP140 action, possibly AF-2. Coexpression of other AF-2-interacting proteins, including the p160 factors, steroid receptor coactivator-1a (SRC-1a) and glucocorticoid receptor interacting protein-1 (GRIP1), had negligible effects on ER alpha/Pit-1 cooperative activation, but partially relieved RIP140 inhibition. Relief of RIP140 inhibition required the AF-2-binding, LXXLL motifs in SRC-1a and GRIP1. An ER AF-2 mutant that selectively blocked ER interaction with p160s, but not RIP140, still cooperated with Pit-1 and was inhibited by RIP140, but was not relieved by SRC-1a or GRIP1 expression. Thus, SRC-1a and GRIP1 binding to AF-2 counteracted the inhibition of ER/Pit-1 activation by another AF-2-interacting protein, RIP140. Complex, sometimes antagonistic, actions of different classes of AF-2-interacting proteins may play an important role in the cell- and gene-specific estrogen regulation of PRL and other genes.
Mol Endocrinol 1999 Jun
PMID:Regulation of estrogen receptor activation of the prolactin enhancer/promoter by antagonistic activation function-2-interacting proteins. 1037 92

PRL gene expression is dependent on the presence of the pituitary-specific transcription factor GHF-1/Pit-1, which is transcribed in a highly restricted manner in cells of the anterior pituitary. In pituitary GH3 cells, vitamin D increases the levels of PRL transcripts and stimulates the PRL promoter. We have analyzed the role of GHF-1 and of the vitamin D receptor (VDR) to confer vitamin D responsiveness to the PRL promoter. For this purpose we have used nonpituitary HeLa cells, which do not express GHF-1. We found that VDR activates the PRL promoter both in a ligand-dependent and -independent manner through a sequence located between positions -45/-27 in the proximal 5'-flanking region. This sequence also confers VDR and vitamin D responsiveness to a heterologous promoter. In the context of the PRL gene, VDR requires the presence of GHF-1 to activate the promoter. Truncation of the last 12 C-terminal amino acids of VDR, which contain the ligand-dependent activation function (AF2), abolishes regulation by vitamin D, suggesting that binding of coactivators to this region mediates ligand-dependent stimulation of the PRL promoter by the receptor. Indeed, expression of the coactivators, steroid hormone receptor coactivator-1 (SRC-1) and CREB-binding protein (CBP), significantly enhances the stimulatory effect of vitamin D mediated by the wild-type VDR but not by the AF2 mutant receptor. Furthermore, CBP also increases the activation of the PRL promoter by GHF-1 and the ligand-independent activation by both wild-type and mutant VDR.
Mol Endocrinol 1999 Jul
PMID:Synergistic activation of the prolactin promoter by vitamin D receptor and GHF-1: role of the coactivators, CREB-binding protein and steroid hormone receptor coactivator-1 (SRC-1). 1040 65

Growth hormone (GH) gene expression has been reported in the mammary glands of various mammalian species. The mechanism by which the GH gene becomes activated in extrapituitary tissues is currently unclear. We have characterized the canine mammary and pituitary GH gene transcripts by Northern blot, 5'- and 3'-RACE (rapid amplification of cDNA ends), and DNA sequence analysis. Northern blot analysis detected GH gene transcripts in mammary glands of dogs which were exposed to high levels of progestins. The mammary and pituitary GH cDNAs were shown to be identical in both the coding region and untranslated regions. Pituitary GH gene expression is highly dependent upon the transcription factor Pit-1. Analysis of Pit-1 gene expression using RT-PCR followed by Southern hybridization revealed a strong pituitary signal but faint, weak or no hybridization signals in mammary gland samples. Among the negative samples were progestin-treated dogs with high mammary GH gene expression. These findings indicate that mammary and pituitary GH gene transcripts originate from the same transcription start site but are regulated differentially.
Mol Cell Endocrinol 1999 Apr 25
PMID:Canine mammary growth hormone gene transcription initiates at the pituitary-specific start site in the absence of Pit-1. 1041 6

Expression of the tilapia growth hormone (tiGH) gene is pituitary-specific and controlled by intracellular cAMP levels. DNaseI protection experiments allowed us to identify four Pit-1 binding sites in the tiGH - 465/ + 19 region. Deletion and mutagenesis analysis revealed that the - 131/+ 19 region, containing two Pit-1 sites, or four copies of the most proximal site tiGHF1 fused to the heterologous Tk promoter, confer high level expression in rat pituitary cells and direct transcription in non-pituitary cells only after expression of rat Pit-1. We show that a tilapia pituitary factor specifically binds to site tiGHF1 and obtained a partial cDNA sequence coding for tilapia Pit-1. The cAMP stimulation is mediated by the proximal (- 131/- 31) promoter region. It is Pit-1-dependent and requires the tiGHF1 site. In addition, four copies of this site confer cAMP inducibility to the Tk promoter in GC cells.
Mol Cell Endocrinol 1999 Jun 25
PMID:Pit-1 mediates cell-specific and cAMP-induced transcription of the tilapia GH gene. 1043 29

The expression of non-pituitary human PRL is initiated at a unique 5' untranslated exon located approximately 5.7 kb upstream of the pituitary-specific transcriptional start site. Unlike pituitary PRL expression, transcriptional regulation from the upstream promoter does not rely on the POU-homeodomain protein Pit-1. We have used DNase I mapping of chromatin from PRL-producing and non-producing human lymphoblastoid cell lines to identify hypersensitive sites unique to the PRL expressing phenotype. Analysis of 22 kb of 5' flanking DNA revealed DNase I hypersensitive sites in intron A-1 separating the pituitary from non-pituitary specific transcription start site which were only detected in the PRL-producing cell line. Transient transfection showed strong transcriptional activity directed by this region only in the antisense orientation and in a non cell-type specific manner. Transfection experiments with deletion mutants of 5259 bp of the non-pituitary PRL promoter region also revealed promoter activity not restricted to the PRL expressing phenotype. These data suggest that non-pituitary PRL gene expression may be regulated by elements located in intron A-1 and that recapitulation of cell-specific expression requires a unique cellular context and chromatin assembly.
Mol Cell Endocrinol 1999 Jun 25
PMID:DNase I hypersensitivity analysis of non-pituitary human prolactin gene expression. 1043 32

A region located remotely upstream of the human pituitary GH (GH-N) gene and required for efficient GH-N gene expression in the pituitary of transgenic mice was cloned as a 1.6-kb Bg/II (1.6G) fragment. The 1.6G fragment in the forward or reverse orientation increased -496GH-N promoter activity significantly in pituitary GC and GH3 cells after gene transfer. The 1.6G fragment was also able to stimulate activity from a minimal thymidine kinase (TK) promoter which, unlike -496GH-N, lacked any Pit-1/GHF-1 element. Enhancer activity was localized by deletion analysis to a 203-bp region in the 3'-end of the 1.6G fragment and was characterized by the presence of a diffuse 136-bp nuclease-protected site, observed with pituitary (GC) but not nonpituitary (HeLa) cell nuclear protein. A major low-mobility complex was observed by electrophoretic mobility shift assay (EMSA) with GC cell nuclear protein, and the pattern was distinct from that seen with a HeLa cell extract. The nuclease-protected region contains three A/T-rich Pit-1/ GHF-1-like elements, and their disruption, in the context of the 203-bp region fused to the TK promoter, reduced enhancer activity significantly in pituitary cells in culture. A mutation in this region was also shown to decrease enhancer activity in transgenic mice and correlated with a decrease in the 203-bp enhancer region complex observed by EMSA. The participation of Pit-1/GHF-1 in this complex is indicated by competition studies with Pit-1/GHF-1 elements and antibodies, and direct binding of Pit-1/GHF-1 to the A/T-rich sequences was shown by EMSA using recombinant protein. These studies link the A/T-rich sequences to the distal enhancer activity associated with the GH locus control region in vitro and in vivo.
Mol Endocrinol 1999 Aug
PMID:A role for A/T-rich sequences and Pit-1/GHF-1 in a distal enhancer located in the human growth hormone locus control region with preferential pituitary activity in culture and transgenic mice. 1044 1

Pitx2 is a newly described bicoid-like homeodomain transcription factor that is defective in Rieger syndrome and shows a striking leftward developmental asymmetry. We have previously shown that Pitx2 (also called Ptx2 and RIEG) transactivates a reporter gene containing a bicoid enhancer and synergistically transactivates the prolactin promoter in the presence of the POU homeodomain protein Pit-1. In this report, we focused on the C-terminal region which is mutated in some Rieger patients and contains a highly conserved 14-amino-acid element. Deletion analysis of Pitx2 revealed that the C-terminal 39-amino-acid tail represses DNA binding activity and is required for Pitx2-Pit-1 interaction and Pit-1 synergism. Pit-1 interaction with the Pitx2 C terminus masks the inhibitory effect and promotes increased DNA binding activity. Interestingly, cotransfection of an expression vector encoding the C-terminal 39 amino acids of Pitx2 specifically inhibits Pitx2 transactivation activity. In contrast, the C-terminal 39-amino-acid peptide interacts with Pitx2 to increase its DNA binding activity. These data suggest that the C-terminal tail intrinsically inhibits the Pitx2 protein and that this inhibition can be overcome by interaction with other transcription factors to allow activation during development.
Mol Cell Biol 1999 Oct
PMID:Multifunctional role of the Pitx2 homeodomain protein C-terminal tail. 1049 Jun 37

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