IL-1beta induction of RANTES (regulated upon activation, normal T cell expressed and secreted) chemokine gene expression in endometriotic stromal cells depends on a nuclear factor-kappaB site in the proximal promoter.

A complex network of cytokines mediates immunoregulatory responses in the pathogenesis of endometriosis. RANTES (regulated upon activation, normal T cell expressed and secreted) is a chemoattractant for monocytes and T cells. Endometriotic lesions express RANTES, and its concentration in peritoneal fluid correlates with the severity of endometriosis. We investigated the influence of IL-1beta, a potent macrophage cytokine, on RANTES production in endometriotic stromal cells and determined the region of the RANTES promoter responsible for IL-1beta action. RANTES mRNA was induced 5-fold in endometriotic stromal cells, and the conditioned medium RANTES protein concentrations were 12-fold higher in IL-1beta-treated endometriotic stromal cells vs. untreated controls (P < 0.05). IL-1beta activated the full-length (-940 bp) RANTES promoter as well as a truncated 456-bp 5'-flanking construct by 2-fold. Mutagenesis of a nuclear factor-kappaB response element at -30 bp abolished the IL-1beta effect, whereas mutation of a nearby TNF response element did not affect the IL-1beta induction. An IL-1beta time-course Western assay revealed a rapid diminution of IkappaB (endogenous inhibitor of nuclear factor-kappaB) in endometriotic stromal cells. Overexpression of IkappaB in endometriotic stromal cells inhibited the IL-1beta response of the RANTES gene promoter. Transcription of RANTES mRNA is up-regulated by IL-1beta via a nuclear factor-kappaB response element in the proximal RANTES gene promoter. These results demonstrate a feed-forward regulatory loop in the pathogenesis of endometriosis by which IL-1beta produced from activated macrophages can lead to further macrophage recruitment via RANTES production in endometriotic stromal cells.

Induction of an angiogenic phenotype in endometriotic stromal cell cultures by interleukin-1beta.

Activated peritoneal macrophages are associated with endometriosis and may play a central role in its aetiology by releasing interleukin-1beta (IL-1beta) in response to refluxed endometrium. Pari passu with the establishment of endometriotic implants is the development of a vascular supply. In this study we investigated the angiogenic properties of two endometrial proteins, vascular endothelial growth factor (VEGF) and interleukin-6 (IL-6), and assessed their production in response to IL-1beta stimulation in human stromal cells isolated from normal endometrium (NE) and endometriotic lesions (EI). Proliferation of bovine brain capillary endothelial cells (BBCE) with a [(3)H]-thymidine incorporation assay was observed when VEGF (2.1 +/- 0.2-fold; P < 0.05) or VEGF and IL-6 (1.8 +/- 0.1-fold; P < 0.05) were added in vitro, relative to saline-treated control cultures. Northern blot analysis showed induction of VEGF mRNA (2.6-fold; P < 0.05) and IL-6 mRNA (6.3-fold; P < 0.05) transcripts in EI cells, but not NE cells, exposed to IL-1beta. A similar induction was seen with VEGF and IL-6 protein secretion in the responsive EI cells. Reverse transcription-polymerase chain reaction (RT-PCR) for the IL-1 receptor type I (IL-1 RI) indicated that the differential effects of IL-1beta on NE and EI cells was associated with 2.4 +/- 0.1-fold more receptor mRNA in EI versus NE cells. We propose that the ability of IL-1beta to activate an angiogenic phenotype in EI stromal cells but not in NE cells, is mediated by the IL-1 RI.

Human umbilical vessels and cultured umbilical vein endothelial and smooth muscle cells lack detectable protein and mRNA encoding estrogen receptors.

OBJECTIVE: To identify and characterize estrogen receptors in human umbilical vascular tissues and in cultured cells derived from the human umbilical vein. METHODS: Human umbilical vein endothelial (HUVE) and human umbilical vein smooth muscle (HUVSM) cells were isolated. Immunohistochemical, radioligand binding. Western immunoblotting, and reverse transcription-polymerase chain reaction (RT-PCR) methods were used to detect estrogen receptors in vascular tissues and in cells derived from the umbilical cord. RESULTS: Estrogen receptor protein was not detected in either umbilical vessel tissue or in isolated HUVE or HUVSM cells. Messenger RNAs for the classic estrogen receptor (alpha) and estrogen receptor beta isoforms also were undetectable by RT-PCR. CONCLUSION: These findings suggest that the effects of estradiol observed in this widely used vascular model are mediated by very low concentrations of receptors that evade standard methods of detection. Alternatively, this steroid may affect umbilical vascular cells through mechanisms that do not involve the classic genomic estrogen-receptor pathway.

Immunolocalization and regulation of the chemokine RANTES in human endometrial and endometriosis tissues and cells.

Retrograde menstruation is postulated as the initiating event in the histogenesis of endometriosis; however, subsequent steps in the pathogenesis of this common disorder remain poorly characterized. The ip accumulation of activated leukocytes and the infiltration of endometriosis lesions by macrophages and T cells are cytological markers of the inflammatory nature of this syndrome. The apparent recruitment of these leukocytes prompted us to search for chemokine expression by endometriosis cells. We reported previously that pelvic fluid RANTES (regulated upon activation, normal T cell expressed and secreted) concentrations correlated with the stage of endometriosis. In the current study, RANTES messenger ribonucleic acid (mRNA) was identified in normal endometrium and endometriosis lesions, and techniques were developed to localize RANTES protein within these tissues. Using isolated endometrial and endometriosis cell cultures, we demonstrated that RANTES mRNA and protein can be induced by the proinflammatory cytokines tumor necrosis factor-alpha and interferon-gamma in endometrial stromal, but not in epithelial or adenocarcinoma cells. Immunocytochemical studies confirmed the biochemical findings. Metabolic labeling experiments verified that nascent RANTES secreted by cytokine-stimulated endometriosis stromal cells was the mature, 8-kDa protein predicted by the mRNA encoding this chemokine. The results indicate that RANTES is a normal constituent of the eutopic endometrium. We propose that secretion of RANTES by ectopic endometriosis implants provides a mechanism for peritoneal leukocyte recruitment.

Human endothelial cell morphology and autacoid expression.

Human umbilical vein endothelial (HUVE) cells plated on plastic or gelatin-coated dishes grow as a "cobblestone" monolayer. By contrast, endothelial cells cultured on a complex matrix (e.g., Matrigel) form three-dimensional, capillary-like structures. In the current study, we verified the capillary phenotype of the latter structures and asked whether the morphological changes induced by extracellular matrix also affect human endothelial gene expression and function in vitro. Concentrations of cellular fibronectin, prostacyclin, and endothelin-1 were measured in the conditioned media by enzyme-linked immunosorbent and radioimmunoassays. Steady-state concentrations of HUVE mRNA were estimated by reverse transcription-polymerase chain reaction and quantified by Northern analyses to assess fibronectin and endothelin-1 gene expression. We found that the subjacent extracellular matrix affects the morphology, proliferation, and differentiation of HUVE cells in vitro. Cells cultured on gelatin were more mitotically active, expressed significantly less cellular fibronectin, made similar amounts of prostacyclin, and secreted significantly more endothelin-1 compared with the same cells grown on a Matrigel substrate.

Extraplacental human fetal tissues express mRNA transcripts encoding the human chorionic gonadotropin-beta subunit protein.

The glycoprotein hormone human chorionic gonadotropin (hCG) is synthesized in large quantities by the developing placenta, reaching peak concentrations in maternal blood during the late first trimester and early midtrimester of pregnancy. In general it is believed that the alpha-subunit of this dimeric hormone is expressed in pituitary gonadotropes, thyrotropes, and trophoblasts, while the beta-subunit is expressed exclusively by trophoblasts. Studies from our laboratory and other laboratories have shown that some midtrimester human fetal tissues, in addition to the placenta, can synthesize proteins that appear to be very similar to the beta-subunit of hCG. To define precisely the nature of this putative hCG-beta-subunit in extraplacental fetal tissues, we have examined the mRNA from a variety of human fetal and adult tissues using nucleic acid hybridization and reverse transcription-polymerase chain reaction (PCR) methods. Our results demonstrate that midtrimester fetal kidney and adrenal tissues contain hCG-beta mRNA transcripts at concentrations comparable to that of placenta, while fetal lung, brain, muscle, and adult adrenal contain only trace to undetectable levels of hCG-beta mRNA. By restriction endonuclease mapping of PCR fragments from fetal tissue cDNAs, we show that the hCG-beta transcript expressed in midtrimester human fetal organs is a bone fide copy of hCG-beta gene No. 5 of the beta-subunit gene family located on chromosome 19.