Project description:Inflammation plays a central role in many human diseases. Human parturition also resembles an inflammatory reaction, where progesterone (P4) and progesterone receptors (PRs) have already been demonstrated to suppress contraction-associated gene expression. In our previous studies, we have found that the progesterone actions, including progesterone-induced gene expression and progesterone’s anti-inflammatory effect, are mediated by PR, GR or both. In this study, we used microarrays to find P4 and IL-1β responsive genes and which IL-1β responsive genes were repressed by P4. These data may provide a broader view of gene networks and cellular functions regulated by P4 and IL-1βin human myometrial cells. In our future study, this will also help us understand the role of PR and GR in human parturition. Primary cultures of human myometrial cells were grown from myometrial biopsies obtained at the time of elective caesarean section. Cells were exposed to different stimuli, IL-1β (5ng/mL) and P4 (10 µM), either alone or in combination for 6 h, and then total RNA were extracted from each culture. Three comparisons were carried out including: 1. V vs. P4; 2. V vs. IL-1β; 3. IL-1β vs. IL-1β+P4.

Project description:Inflammation plays a central role in many human diseases. Human parturition also resembles an inflammatory reaction, where progesterone (P4) and progesterone receptors (PRs) have already been demonstrated to suppress contraction-associated gene expression. In our previous studies, we have found that the progesterone actions, including progesterone-induced gene expression and progesterone’s anti-inflammatory effect, are mediated by PR, GR or both. In this study, we used microarrays to find P4 and IL-1β responsive genes and which IL-1β responsive genes were repressed by P4. These data may provide a broader view of gene networks and cellular functions regulated by P4 and IL-1βin human myometrial cells. In our future study, this will also help us understand the role of PR and GR in human parturition.

Project description:This project identified that TRIM28 can modulate progesterone and estrogen signaling in both human and mouse endometrium to regulate its normal functions during pregnancy. TRIM28 showed proximal localization and co-immunoprecipitation with PR and ERalpha. The ablation of TRIM28 can inhibit the chromatin binding activity of PR and ERalpha leading to disrupted estrogen and progesterone signaling. This immunoprecipitation using TRIM28 antibody was performed in pre-decidual human endometrial stromal cells (HESCs) without any hormone treatment. The potential interacting proteins of TRIM28 was analyzed using mass spec.

Project description:Steroid hormones are well-recognized suppressors of the inflammatory response, however, their cell- and tissue-specific effects in the regulation of inflammation are far less understood, particularly for the sex-related steroids. To determine the contribution of progesterone in the endothelium, we have characterized and validated an in vitro culture system in which human umbilical vein endothelial cells constitutively express human progesterone receptor (PR). Using next generation RNA-sequencing, we identified a selective group of cytokines that are suppressed by progesterone both under physiological conditions and during pathological activation by lipopolysaccharide. In particular, IL-6, IL-8, CXCL2/3, and CXCL1 were found to be direct targets of PR, as determined by ChIP-sequencing. Regulation of these cytokines by progesterone was also confirmed by bead-based multiplex cytokine assays and quantitative PCR. These findings provide a novel role for PR in the direct regulation of cytokine levels secreted by the endothelium. They also suggest that progesterone-PR signaling in the endothelium directly impacts leukocyte trafficking in PR-expressing tissues Examination of PR target genes in human umbilical vein endothelial cells (HUVECs) using RNA-seq PR infected only (PR); PR infected followed by ligand treatment (PR+P); PR infected followed by 4h LPS treatment (PR+LPs_4h); PR infected followed by 8h LPS treatment (PR+LPs_8h); PR infected followed by 4h LPS and progesterone treatment (PR+LPS+P_4h); PR infected followed by 8h LPS and progesterone treatment (PR+LPS+P_8h)

Project description:Steroid hormones are well-recognized suppressors of the inflammatory response, however, their cell- and tissue-specific effects in the regulation of inflammation are far less understood, particularly for the sex-related steroids. To determine the contribution of progesterone in the endothelium, we have characterized and validated an in vitro culture system in which human umbilical vein endothelial cells constitutively express human progesterone receptor (PR). Using next generation RNA-sequencing, we identified a selective group of cytokines that are suppressed by progesterone both under physiological conditions and during pathological activation by lipopolysaccharide. In particular, IL-6, IL-8, CXCL2/3, and CXCL1 were found to be direct targets of PR, as determined by ChIP-sequencing. Regulation of these cytokines by progesterone was also confirmed by bead-based multiplex cytokine assays and quantitative PCR. These findings provide a novel role for PR in the direct regulation of cytokine levels secreted by the endothelium. They also suggest that progesterone-PR signaling in the endothelium directly impacts leukocyte trafficking in PR-expressing tissues

Project description:We compared the effects of mPGES-1 inhibitor Compound III (CIII) with the cyclooxygenase (COX)-2 inhibitor NS-398 on protein and lipid profiles in interleukin (IL)-1β induced A549 lung cancer cells using mass spectrometry. Inhibition of mPGES-1 decreased PGE2 production and increased PGF2α and thromboxane B2 (TXB2) formation, while inhibition of COX-2 decreased the production of all three prostanoids. Our proteomics results revealed that CIII downregulated multiple canonical pathways including eIF2, eIF4/P70S6K, and mTOR signaling, compared to NS-398 that activated these pathways.

Project description:Uterine (decidual) macrophages (M) are believed to play an important role in fetal tolerance during pregnancy, but the factors that regulate them are not known. In this study we investigated the potential role of several factors (M-CSF, GM-CSF, IL-4/13, IL-10, progesterone and estradiol) to drive the differentiation and polarization of human decidual M by using an in vitro M differentiation model. To estimate the similarity of the in vitro differentiated M with decidual M, we used the present gene expression array. The array consisted of 420 M-related genes, including 100 genes highly regulated in decidual M based on the gene expression profile previously reported (Gustafsson et al, 2008, PLoS ONE. 3(4): e2078). The analysis focused on the 100 decidual M-associated genes.

Project description:Although non-genomic steroid receptor pathways have been studied over the past decade, little is known about the direct gene expression changes that take place as a consequence of their activation. Progesterone controls proliferation of rat endometrial stromal cells during the peri-implantation phase of pregnancy. We showed that picomolar concentration of progestin R5020 mimics this control in UIII endometrial stromal cells via ERK1-2 and AKT activation mediated by interaction of Progesterone Receptor (PR) with Estrogen Receptor beta (ERb) and without transcriptional activity of endogenous PR and ER. Here we identify early downstream targets of cytoplasmic PR signaling and their possible role in endometrial stromal cell proliferation. Microarray analysis of global gene expression changes in UIII cells treated for 45 min with progestin identified 97 up- and 341 down-regulated genes. The most over-represented molecular functions were transcription factors and regulatory factors associated with cell proliferation and cell cycle, a large fraction of which were repressors down-regulated by hormone. Further analysis verified that progestins regulate Ccnd1, JunD, Usf1, Gfi1, Cyr61, and Cdkn1b through PR-mediated activation of ligand-free ER, ERK1-2 or AKT, in the absence of genomic PR binding. ChIP experiments show that progestin promoted the interaction of USF1 with the proximal promoter of the Cdc2 gene, and Usf1 knockdown abrogated Cdc2 progestin-dependent transcriptional regulation providing a mechanism for direct regulation of its expression. Finally, Cdc2 knockdown blocked R5020 induced UIII cell proliferation. We conclude that progestin induced proliferation of endometrial stromal cells requires ERK1-2 and AKT mediated early regulation of USF1, that induces Cdc2. To our knowledge, this is the first description of early target genes of progestin-activated classical PR via crosstalk with protein kinases and independently of hormone receptor binding to the genomic targets.

Project description:Uterine NK cells (uNK) play a role in the regulation of placentation but their functions in non-pregnant endometrium are not understood. We have previously reported suppression of endometrial bleeding and alteration of spiral artery morphology in women exposed to asoprisnil, a progesterone receptor modulator (PRM). We now compare global endometrial gene expression in asoprisnil-treated versus control women and demonstrate a statistically significant reduction of genes in the IL-15 pathway, known to play a key role in uNK development and function. Suppression of IL-15 by asoprisnil was also observed at mRNA level (p<0.05), and immunostaining for NK cell marker CD56 revealed a striking reduction of uNK in asoprisnil-treated endometrium (p<0.001). IL-15 levels in normal endometrium are progesterone-responsive. Progesterone receptor (PR) positive stromal cells transcribe both IL-15 and IL-15RA. Thus, the response of stromal cells to progesterone will be to increase IL-15 trans-presentation to uNK, supporting their expansion and differentiation. In asoprisnil-treated endometrium, there is a marked down-regulation of stromal PR expression and virtual absence of uNK. These novel findings indicate that the IL-15 pathway provides a missing link in the complex interplay between endometrial stromal cells, uNK and spiral arteries affecting physiological and pathological endometrial bleeding. 39 Samples

Project description:Uterine (decidual) macrophages (M) are believed to play an important role in fetal tolerance during pregnancy, but the factors that regulate them are not known. In this study we investigated the potential role of several factors (M-CSF, GM-CSF, IL-4/13, IL-10, progesterone and estradiol) to drive the differentiation and polarization of human decidual M by using an in vitro M differentiation model. To estimate the similarity of the in vitro differentiated M with decidual M, we used the present gene expression array. The array consisted of 420 M-related genes, including 100 genes highly regulated in decidual M based on the gene expression profile previously reported (Gustafsson et al, 2008, PLoS ONE. 3(4): e2078). The analysis focused on the 100 decidual M-associated genes. Comparative expression analysis of CD14+ cells isolated from blood (3 samples) or decidua (3 samples) from pregnant women, CD14+ cells isolated from non-pregnant women (14 samples) and different types of in vitro-generated macrophages (55 samples). A total of 75 samples were anlayzed.