Frank J. Michel

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-β1 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-β1. 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.

Direct Interaction of the Krüppel-like Family (KLF) Member, BTEB1, and PR Mediates Progesterone-Responsive Gene Expression in Endometrial Epithelial Cells

The present study was undertaken to evaluate the underlying mechanism(s) by which PR and a Kruppel-like family member, basic transcription element binding protein (BTEB1), mediate endometrial epithelial expression of pregnancy-associated genes. Human endometrial carcinoma cell lines (Hec-1-A) expressing high and low levels of BTEB1 were transiently transfected with a human PR isoform (PR-B) expression construct and a luciferase reporter gene driven by the uteroferrin gene promoter that is responsive to both BTEB1 and the PR ligand progesterone. Unliganded PR inhibited luciferase activity in low and high BTEB backgrounds, and this effect was reversed by the synthetic progestin R5020 in both lines. Transactivation by PR of uteroferrin promoter activity (∼4-fold) was maximal at lower R5020 concentrations (10 nm) in endometrial cells with higher BTEB1 expression, suggesting that nuclear BTEB1content influenced target gene promoter sensitivity to progesterone. BTEB1 and PR-B were found to physically interact i...

Increased expression of the Zn-finger transcription factor BTEB1 in human endometrial cells is correlated with distinct cell phenotype, gene expression patterns, and proliferative responsiveness to serum and TGF-β1

Basic transcription element binding (BTEB, also designated BTEB1) protein is a member of the Sp-family of GC-box binding transcription factors that exhibit distinct patterns of expression in many cell types and tissues. A role for BTEB1 in the regulation of cell growth and gene transcription has been invoked, but little is known about the molecular mechanisms underlying these activities. The present study examined the functional consequences of high and low BTEB1 expression in the human endometrial carcinoma cell line Hec-1-A, by deriving stable clonal lines that expressed sense (S) and anti-sense (As) rat BTEB1 constructs. Clonal S lines, with BTEB1 mRNA and protein levels higher than in corresponding parent (N) and As lines, displayed enhanced DNA synthesis upon 3[H]-thymidine incorporation, in serum-containing but not in serum-free medium, and increased cell cycle kinetics, concomitant with the induction in expression of the genes for the cell cycle-associated components cyclin D1, PCNA, cyclin-dependent kinase (Cdk) inhibitor p21, and Cdk2. Compared to N and As lines, S lines also had diminished ability to grow in multi-layers and exhibited increased mRNA levels for plasminogen activator inhibitor-1 (PAI-1), secretory leukocyte protease inhibitor (SLPI), and tissue inhibitor of metalloproteinases (TIMP)-2. In serum-free medium, S, but not N nor As lines, had enhanced DNA synthesis with transforming growth factor (TGF)-beta1, albeit all lines demonstrated similar responses to insulin-like growth factor-I and to epidermal growth factor, respectively. The higher DNA synthesis in S relative to N and As, lines upon exogenous TGF-beta1 addition, was observed in concert with increased expression of cyclins D1 and E and p21, genes. Moreover, S and As lines had increased mRNA levels for TIMP-1, TIMP-2, PAI-1, and beta-catenin, and diminished SLPI, and to a lesser extent, Cdk4 mRNA levels, with TGF-beta1 treatment. These results suggest that BTEB1 may mediate cell growth, in part, by modulating gene expression levels of distinct cell cycle and growth-associated proteins. The correlation between serum- and TGF-beta1 induction of DNA synthesis with increased BTEB1 expression further suggests that BTEB1 may constitute an important downstream regulatory component of various signaling pathways utilized by serum-associated and other growth factors in endometrial epithelial cells.

Molecular Markers of Endometrial Epithelial Cell Mitogenesis Mediated by the Sp/Krüppel-Like Factor BTEB1

Basic transcription element binding (BTEB1) protein is one of at least 20 Sp/KLF family members that function as transcriptional activators or repressors by binding to GC/GT-rich sequences within target genes to influence cellular homeostasis in mammals. Previously, we demonstrated that increased expression of BTEB1 in a human endometrial epithelial cell line Hec-1-A resulted in serum dependent-enhanced proliferation, which was accompanied by heightened expression of cell cycle- and growth-associated genes. In the present study, we examined the mechanism underlying the altered proliferative potential associated with BTEB1 by the identification of additional BTEB1 downstream gene targets and by the demonstration of BTEB1 transactivation of promoters for a number of growth-associated genes. Using mRNA differential display in the analysis of RNA populations from Hec-1-A sublines with high (4S, 9S) and low (2As, 3As) BTEB1 cellular content, we identified 10 distinct differentially expressed transcripts, nine of which had higher levels in S than in As sublines. The expression levels of two of these cDNAs, Axl receptor tyrosine kinase and mitosin, whose encoded products are implicated in cellular proliferation, were modestly induced by serum, albeit in a BTEB1-independent manner. Moreover, insulin-like growth factor-I, a mitogen present in serum, had no significant effect on their expression in either subline. In transient reporter assays, the basal activities of the Axl gene promoter and those for two other growth-regulatory genes, namely p21(WAF1) and IGFBP-2, were increased by serum and were significantly higher in 4S than in 2As lines. However, while BTEB1 and its ubiquitous family member Sp1 increased basal p21(WAF1) and IGFBP-2 transcription when added as expression constructs in the parental Hec-1-A cell line, only Sp1 activated Axl transcription, despite the presence in all three gene promoters of GC-enriched regions that presumably can bind BTEB1 and Sp1 with similar affinities. To elucidate intracellular signaling pathways that might involve BTEB1, inhibitors of specific kinase-dependent transducers were used in transient transfection assays involving the IGFBP-2 gene promoter in 4S and 2As sublines. While inhibitors of the MAPK, PI-3K, and PKA pathways elicited similar effects on the IGFBP-2 gene promoter activity, irrespective of cellular BTEB1 content, that for JNK had a more pronounced effect on Hec-1-A sublines exhibiting higher BTEB1 expression levels. Taken together, the results suggest that BTEB1 mediates the expression of growth-associated genes through direct and indirect transactivation mechanisms, one of which may involve the participation of a JNK family member.

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.

Interferon-t Induces Degradation of Prostaglandin H Synthase-2 Messenger RNA in Bovine Endometrial Cells Through a Transcription-Dependent Mechanism 1

Abstract A series of experiments were undertaken to examine the effects of interferon (IFN)-τ on regulation of prostaglandin H synthase (PGHS)-2 mRNA in bovine endometrial (BEND) cells as a means to elucidate the actions of IFN-τ to maintain pregnancy. The objective was to determine if IFN-τ mediates posttranscriptional regulation of PGHS-2 mRNA. Cells were treated with phorbol 12,13-dibutyrate (PdBu) for 3 h to induce PGHS-2 mRNA expression. Actinomycin D (0 or 1 μg/ml) or the p38 mitogen-activated protein kinase (MAPK) inhibitor, SB203580 (1 μM), were added at 3 h, followed by addition of IFN-τ (0 or 50 ng/ml) at 3.5 h and extraction of RNA at 4.5 h. The concentrations of PGHS-2 mRNA were stable between 3 and 4.5 h regardless of actinomycin D. Simultaneous treatment of PdBu-treated cells with actinomycin D and SB203580 (1 μM) decreased PGHS-2 mRNA. Addition of IFN-τ (50 ng/ml) reduced PGHS-2 mRNA, which was not observed when actinomycin D was present. Concurrent treatments of cells with SB203580 and IFN-τ (5 ng/ml) decreased concentrations of PGHS-2 mRNA in an additive manner. Although IFN-τ reduced PGHS-2 mRNA concentrations, phosphorylation of p38 MAPK was induced by IFN-τ, PdBu, and PdBu combined with IFN-τ after 10 min of treatment. Both the p38 MAPK inhibitor and IFN-τ decreased prostaglandin F2α secretion, and decreases were additive when the two were given together. In summary, activation of p38 MAPK by PdBu is required for continued presence of PGHS-2 mRNA and secretion of prostaglandin F2α in BEND cells. Interferon-τ mediates a transcription-dependent mechanism, which induces degradation of PGHS-2 mRNA. However, the consequences of an IFN-τ-induced activation of p38 MAPK warrant further investigation, because inhibition of p38 MAPK caused a degradation of PGHS-2 mRNA.

Characterization and Developmental Expression of Binding Sites for the Transplacental Iron Transport Protein, Uteroferrin, in Fetal Hematopoietic Tissues

In the pig, iron transport to the developing fetus during pregnancy involves, in part, uteroferrin (UF), a secreted progesterone-induced protein of the uterus. Neonatal pigs suffer from anemia, and the decrease in the synthesis of UF protein in late pregnancy was suggested to be partly responsible for this condition. To examine whether diminished capacity for UF uptake by pig fetuses may also contribute to neonatal anemia, binding sites for 125I-UF were examined in plasma membrane-enriched fractions of fetal liver and spleen, which are sites of fetal hematopoiesis. In addition, changes in the number of these binding sites as a function of fetal development were evaluated. Binding of 125I-UF to liver membrane fractions was displaced by intact UF greater than deglycosylated (aglyco) UF greater than ovalbumin, but not by yeast mannan. Scatchard analysis of radioligand binding showed the presence of a single class of binding sites with a dissociation constant of 10(-7) M. During fetal development and at postpartum (day 5), liver binding sites for UF remained invariant and displayed the same affinity. In contrast, the number of binding sites for UF in fetal spleen increased from midpregnancy to parturition and remained elevated in day 5 neonatal spleen. Affinity cross-linking of 125I-UF to liver membrane-associated binding sites and subsequent analysis by gel electrophoresis and autoradiography demonstrated a single labeled protein complex of Mr 58,000 and 87,000 under denaturing and nondenaturing conditions, respectively. The appearance of these bands was inhibited by intact UF, but not ovalbumin. The characteristics of the membrane-associated binding sites for UF differed from those of the mannose-related receptor previously described in reticuloendothelial cells of fetal liver. The invariant presence of UF binding components in sites of hematopoiesis during fetal development suggests that mechanism(s) unrelated to specific uptake of UF are responsible for neonatal anemia.