A regulatory element within the uteroferrin gene 5'-flanking region binds a pregnancy-associated uterine endometrial protein

Effect of low-dose mifepristone administration on day 2 after ovulation on transcript profiles in implantation-stage endometrium of rhesus monkeys

Progesterone is essential for endometrial receptivity in primates. In studies previously performed using global gene profiling based on microarray technology, attempts have been made to identify changes in gene expression between early luteal-phase and mid-luteal-phase endometria. However, the issue of the putative impact of preimplantation embryo-derived signal in the process of endometrial receptivity was missing in the previous studies. In the present study, an attempt has been made to delineate the transcripts profile in implantation-stage endometrium under combinatorial regulation of progesterone and embryo-derived signal in the rhesus monkey. To this effect, we have compared transcript profiles for 409 known genes between control receptive stage (n=13), and mifepristone-induced desynchronized and non-receptive stage (n=12) monkey endometrial samples collected on days 4 (n=12) and 6 (n=13) after ovulation from mated, potential conception cycles, using cDNA arrays containing sequence-verified clones. Statistical analysis of correlation of estimated transcript abundance between arrays and qRT-PCR for nine selected gene products yielded significant (P<0.05) concordance. Of 409 genes, a total of 40 gene transcripts were seen to be affected, nine gene transcripts in endometrial samples were found to progressively increase between days 4 and 6 following mifepristone treatment, while an additional five genes showed differential expression profile depending on the day after treatment. Additionally, different sets of 12 and 14 gene products showed changes in days 4 and 6 post-ovulation samples respectively. A new cohort of 28 gene products in implantation-stage endometrium was seen to be affected by luteal-phase mifepristone.

Enhancer- and silencer-like sequences that mediate insulin-like growth factor-binding protein-2 gene expression in uterine cells of pregnancy

The regulation of insulin-like growth factor-binding protein-2 (IGFBP-2) gene transcription in specific cell and developmental contexts is not well understood. Here, we identified DNA regions that mediate IGFBP-2 gene transcription in two of the three major cell types of the uterine endometrium of the early pregnant pig. Two clusters of transcriptional start sites at nucleotides -109/-105 and -96/-87 (+1, translational initiation site) in the porcine IGFBP-2 gene were localized in uterine endometrium and in primary cultures of endometrial glandular epithelial (GE) and stromal (ST) fibroblastic cells. Upstream regions of this gene (spanning -1,397/+73) were fused to a luciferase reporter gene, and the constructs were transiently transfected into endometrial GE and ST cells representative of pregnancy days 12 and 18 (day 115 = parturition). A short (110 bp) upstream region (-874/-765) stimulated the IGFBP-2 and heterologous SV40 promoters in the two cell types at both pregnancy days. Two noncontiguous copies of the novel sequence motif TCAGGG within the 110-bp fragment were implicated in transcriptional activity, since block mutation of these sequences led to a repression of SV40 basal promoter activity in endometrial cells. Southwestern blotting identified an endometrial nuclear protein of 34-kDa molecular weight that bound an oligonucleotide containing this motif, and EMSA suggested robust expression of this protein in early pregnancy endometrium and in ovary but at much reduced levels in endometrium at later pregnancy. A pair of E-box elements (CANNTG) within the 110 bp region was stimulatory to IGFBP-2 promoter activity; block mutation of these converted the 110-bp region into a potent transcriptional silencer in all but day 18 ST cells. Results identify novel DNA motifs that regulate the IGFBP-2 gene promoter in uterine endometrium in pregnancy-associated fashion.

Secretory leukocyte protease inhibitor mediates proliferation of human endometrial epithelial cells by positive and negative regulation of growth-associated genes

Secretory leukocyte protease inhibitor (SLPI) inhibits chymotrypsin, trypsin, elastase, and cathepsin G. This protein also exhibits proliferative effects, although little is known about the molecular mechanisms underlying this activity. We have generated SLPI-ablated epithelial sublines by stably transfecting the Ishikawa human endometrial cell line with an antisense human SLPI RNA expression vector. We demonstrate a positive correlation between cellular SLPI production and proliferation. We further show that Ishikawa sublines expressing low to undetectable SLPI have correspondingly increased and decreased expression, respectively, of transforming growth factor-beta 1 and cyclin D1 genes, relative to parental cells. SLPI selectively increased cyclin D1 gene expression, with the effect occurring in part at the level of promoter activity. Cellular SLPI levels negatively influenced the anti-proliferative and pro-apoptotic insulin-like growth factor-binding protein-3 expression. We also identified lysyl oxidase, a phenotypic inhibitor of the ras oncogenic pathway and a tumor suppressor, as SLPI-repressed gene, whose expression is up-regulated by transforming growth factor-beta1. Our results suggest that SLPI acts at the node(s) of at least three major interacting growth inhibitory pathways. Because expression of SLPI is generally high in epithelial cells exhibiting abnormal proliferation such as in carcinomas, SLPI may define a novel pathway by which cellular growth is modulated.

Molecular cloning of porcine estrogen receptor-beta complementary DNAs and developmental expression in periimplantation embryos

In the pig, estrogens transiently produced by embryos and progestins of maternal origin target the uterine endometrium, causing alterations in gene expression and secretory activity, both of which are important for the initiation of embryo attachment. The potential direct embryotrophic roles of estrogens and progestins are, however, unknown. Here we report the cloning of porcine embryonic estrogen receptor-beta (ER-beta) mRNA by reverse transcription-polymerase chain reaction (RT-PCR) using specific primer sets designed initially within conserved regions of human and bovine ER-beta mRNAs, and subsequently within regions of identified porcine ER-beta cDNA sequences. The ER-beta mRNA has an open reading frame of 1578 nucleotides and encodes a 526 amino acid polypeptide that displays greater than 90% identity with other mammalian ER-beta proteins. Northern and Western blot analyses using porcine filamentous embryos from Day 12 of pregnancy demonstrated the presence of multiple ER-beta mRNA transcripts of approximately 9.5, 4.9, and 3.5 kilobases, and a similar 64-kDa protein corresponding in size to human ovarian granulosa cell ER-beta, respectively. In Day 12 filamentous embryos, ER-beta expression was immunolocalized to trophoblastic cell nuclei, coincident with that of proliferative cell nuclear antigen (PCNA). The developmental ontogeny of ER-beta mRNA was evaluated in embryos of different morphologies (spherical, tubular, and filamentous) by semiquantitative RT-PCR, along with those for other steroid hormone receptors (ER-alpha and progesterone receptor) and known embryonic genes associated with cell differentiation (cytochrome P450 aromatase type III) and growth (cyclin D1). ER-beta mRNA levels varied with embryo morphology (filamentous maximum at Day 12), coincident with that of cyclin D1. Progesterone receptor mRNA levels were maximal in tubular embryos, similar to that of P450 aromatase, whereas the expression of the ER-alpha gene was barely detectable and appeared constitutive for all developmental stages examined. Estradiol-17 beta treatment of Day 12 filamentous embryos in culture up-regulated ER-beta and P450 aromatase (type III) mRNA levels, respectively, but decreased those of PCNA, and had no effect on cyclin D1 mRNA levels. These studies taken together suggest that embryonic ER-beta likely mediates the autocrine functions of estrogens in the dynamic regulation of embryonic growth and development at periimplantation.

Expression and regulatory function of the transcription factor Sp1 in the uterine endometrium at early pregnancy: implications for epithelial phenotype

The uterus during early pregnancy synthesizes a complex array of signaling molecules with specific spatial and temporal modes of expression and which are critical for embryo implantation and subsequent development. The mechanism(s) underlying the differential pattern of synthesis of these pregnancy-associated proteins is not understood very well. The present study evaluated the expression and trans-activation potential of the transcription factor Sp1 in the early pregnancy porcine endometrium to determine its temporal and functional association with the endometrial epithelial-specific genes encoding the transplacental iron-transport protein uteroferrin (UF) and an Sp-family member, basic transcription element-binding (BTEB) protein. Two identical Sp1 clones (717 bp) were isolated from a porcine endometrial cDNA library by polymerase chain reaction (PCR). The nucleotide sequence of these clones encodes a partial protein sequence of 238 amino acids encompassing the Zn-finger region and had significant identities with the corresponding regions in the rat and human proteins. By using a specific antibody raised against human Sp1, porcine endometrial Sp1 was found to exhibit a molecular weight of 110 kDa, was localized predominantly in the nuclei of glandular and luminal epithelial cells, and appeared to exist as a phosphorylated protein. Northern blot analysis demonstrated three distinct size transcripts of approximately 3.5, 5, and 8 kb for endometrial Sp1. The expression of Sp1 mRNA and protein, determined by RT-PCR and by its ability to bind Sp1 consensus motif in gel mobility shift assays, respectively, overlapped with, but did not parallel that of UF mRNA during early pregnancy. The effect of increased Sp1 expression on UF gene promoter activity was examined using a human Sp1 expression vector that was transiently transfected into primary cultures of pig endometrial glandular epithelial cells. Sp1 increased (P < 0.05) the promoter activities of various UF promoter-Luciferase reporter constructs by 2 to 4-fold, over those transfected with empty expression vector. Co-transfection of a BTEB expression vector with the Sp1 expression vector modified the effect of Sp1 on UF promoter activity in the shortest construct. These results suggest that Sp1 mediates the regulation of endometrial epithelial gene expression during pregnancy, and that this function is likely altered in vivo by co-expression of other family members, including BTEB.

Trans-activation functions of the Sp-related nuclear factor, basic transcription element-binding protein, and progesterone receptor in endometrial epithelial cells

The present study examined the trans-activation potential of basic transcription element-binding protein (BTEB), a recently identified member of the Sp family of GC box-binding transcription factors, on the expression of the gene encoding the pregnancy-associated, epithelial-specific, and progesterone (P)-induced porcine uterine endometrial secretory protein, uteroferrin (UF). Endometrial expression of BTEB, P receptor (PR), and UF genes was analyzed by RT-PCR as a function of pregnancy stage and cell type and was correlated with the levels of endometrial BTEB that were quantified by Western blot and/or electrophoretic mobility shift assay. PR, BTEB, and UF messenger RNAs (mRNAs) were present in early (day 12) and mid(day 60) pregnancy pig endometrium, although expression levels varied for each mRNA (UF, day 12 << day 60; PR and BTEB, day 12 = day 60). Within the endometrium, glandular epithelial (GE) cells manifested higher amounts of UF mRNA than stromal fibroblastic cells, whereas both cell types had comparable amounts of BTEB and PR mRNAs. Expression of BTEB, however, was limited to endometrial GE cells. A BTEB expression vector (pcDNA-3BTEB) was used to examine the effect of increased BTEB protein on UF gene expression and promoter activity in primary cultures of pig endometrial GE cells. Cells transiently transfected with pcDNA-3BTEB had 2-fold higher UF mRNA levels than those transfected with the empty expression vector (pcDNA-3). Further, cells cotransfected with a UF promoter-luciferase (-1935UF-Luc) reporter gene and the BTEB expression vector had 2-fold higher Luc activity than those cotransfected with reporter gene and pcDNA-3. This effect of BTEB was not observed in transfected endometrial stromal fibroblastic cells, but was apparent in the human endometrial epithelial carcinoma cell lines ECC-1 and Hec-1-A, which exhibit low levels of BTEB protein and low or undetectable PR mRNA levels, respectively. The respective contributions of BTEB and PR to the modulation of UF promoter activity were examined by cotransfection of Hec-1-A and ECC-1 cells with expression plasmids for BTEB and PR and one of two UF promoter constructs (-831UF-Luc or -1935UF-Luc) in the absence or presence of P. The increase in UF promoter activity with BTEB was mimicked by PR in a P-dependent manner in both cell lines. The combined effect of PR/P and BTEB appeared additive in Hec-1-A cells and was synergistic in ECC-1 cells. These results highlight the cell context dependence of the trans-activation potential of BTEB and suggest its unique role, in concert with PR, in directing the temporal expression of endometrial epithelial genes of pregnancy.

Multiple upstream promoter elements of the gene for the pregnancy-associated tartrate-resistant acid phosphatase, uteroferrin bind human endometrial nuclear proteins

The endometrial expression of the gene encoding porcine uteroferrin (UF), during pregnancy is presumed to be mediated by cis-regulatory regions distinct from those that confer its limited expression to other mammalian tissues and cell types. In the present study, chimeric DNA constructs of native and progressive 5' deleted promoter regions fused to the promoter chloramphenicol acetyl-transferase reporter gene were transiently transfected in the human endometrial carcinoma cell line ECC-1 to examine their ability to direct UF promoter activity. The region between -1935 and -831 bp contained negatively acting elements which drastically reduced basal promoter activity. In contrast, the region between -831 and -484 bp contributed significantly to high level basal activity. Gel retardation and footprinting assays identified factor-binding sites between -1601 and -484 bp for human endometrial nuclear proteins. One binding site corresponds to a heptamer motif (TGCTAGA) present twice within the -1601 to -831 bp region and previously shown to bind an 80 kDa porcine endometrial protein. This heptamer bound an 80 kDa nuclear protein from human ECC-1 and human Ishikawa endometrial cells and a 92 kDa protein from human placental JEG-3 cells. The other binding region within -831 to -484 bp contained GC-rich sequences, which bind human Sp1. The protected GC-rich sequence (GC-Box 1) between -768 and -749 bp also binds a 24 kDa M(r) protein. Nuclear proteins of molecular weight 40-60 kDa and distinct from Sp1, Sp2 and Sp3 bound a second GC-rich sequence (GC-Box 3) between -628 and -616 bp. These studies demonstrate that multiple elements within the UF gene promoter bind nuclear proteins which are similarly expressed in other endometrial cells and suggest that common transactivating factors may functionally mediate expression of endometrial-associated genes.