Project description:The myometrium is an important reproductive tissue composed primarily of smooth muscle cells. Contractility of the myometrial smooth muscle cells during the estrous cycle and pregnancy is modulated by estrogen. Despite much research, little is known about the molecular mechanism by which estrogen regulates myometrial contractility. This study investigates global gene expression profile of cultured human uterine smooth muscle cells (hUtSMCs) following 17M-NM-2-estradiol (E2) treatment using cDNA microarray technology. In response to E2 treatment 540 genes were identified as significantly differentially expressed. Gene ontology analysis identified several significant biological processes for these genes including muscle contraction, gland development, cell migration, cell adhesion, apoptosis, response to external stimulus and phosphorylation. In this study evidence is presented that in human smooth muscle cells 17M-NM-2-estradiol, contrary to expectations, altered expression of several genes that may favor myometrial relaxation. Genes related to focal adhesion function were downregulated suggesting a loosening of SMC connections to the ECM while upregulation of MMP9 is also associated with weakened ECM interactions. The hUtSMC system is an additional useful model to investigate steroid effects on smooth muscle cells in isolation from other myometrial cell types. In this study human myometrial smooth muscle cells (hUtSMC) purchased from Lonza were cultured and treated with 17beta estradiol. RNA was isolated after 6h, 24h and 72h from both treated and untreated control cells. The experiment was repeated at least 3 times.

Project description:The myometrium is an important reproductive tissue composed primarily of smooth muscle cells. Contractility of the myometrial smooth muscle cells during the estrous cycle and pregnancy is modulated by estrogen. Despite much research, little is known about the molecular mechanism by which estrogen regulates myometrial contractility. This study investigates global gene expression profile of cultured human uterine smooth muscle cells (hUtSMCs) following 17β-estradiol (E2) treatment using cDNA microarray technology. In response to E2 treatment 540 genes were identified as significantly differentially expressed. Gene ontology analysis identified several significant biological processes for these genes including muscle contraction, gland development, cell migration, cell adhesion, apoptosis, response to external stimulus and phosphorylation. In this study evidence is presented that in human smooth muscle cells 17β-estradiol, contrary to expectations, altered expression of several genes that may favor myometrial relaxation. Genes related to focal adhesion function were downregulated suggesting a loosening of SMC connections to the ECM while upregulation of MMP9 is also associated with weakened ECM interactions. The hUtSMC system is an additional useful model to investigate steroid effects on smooth muscle cells in isolation from other myometrial cell types.

Project description:We used microarrays to detail transcriptional changes in cultured human smooth muscle cells in response to acute and chronic 2-methoxyestradiol treatment 2-ME, an endogenous metabolite. of estradiol, not only exerts cytotoxic effects on cancer cells but it also protects against multiple proliferative disorders, including atherosclerosis and injury-induced intimal thickening Keywords: treatment vs. control Human aortic smooth muscle cells cultures with/without 2-methoxyestradiol (acute/chronic treatment)

Project description:Transcriptomic effects of combined 17beta-estradiol and progesterone treatment of cultured human uterine smooth muscle cells and of the progesterone inhibitor RU486 (mifepristone)

Project description:The myometrium is an important reproductive tissue composed primarily of smooth muscle cells. Contractility of the myometrial smooth muscle cells during pregnancy and labour is modulated by hormones. Despite much research, little is known about the molecular mechanism by which estrogen and progesterone regulate myometrial contractility. This study investigates global gene expression profile of cultured human uterine smooth muscle cells (hUtSMCs) following 17β-estradiol (E2) and/or progesterone treatments using cDNA microarray technology. Furthermore the effects of addition of the progesterone inhibitor RU486 were investigated. Many genes were regulated in the presence of P4 or E2 alone but almost six times these numbers were regulated in the presence of the combination. The majority of these genes returned to near baseline levels (control samples) on addition of RU486. In total 796 annotated genes were significantly differentially expressed in the combined presence of P4 and E2 (relative to untreated levels). Furthermore, 666 annotated genes were significantly regulated by the addition of RU486 to the P4/E2 combination (relative to P4/E2 levels). Gene ontology analysis of these differentially expressed genes revealed a strong association of P4/E2 treatment with the downregulated expression of genes involved in cell communication, signal transduction, channel activity, inflammatory response and differentiation. Upregulated processes included cell survival (anti-apoptosis), gene transcription, steroid hormone biosynthesis, muscle development, insulin receptor signaling and cell growth. Functional withdrawal of progesterone using RU486 effectively reversed the processes induced by P4/E2 treatment. The hUtSMC system is an additional useful model to investigate steroid effects on smooth muscle cells in isolation from other myometrial cell types. In this study human myometrial smooth muscle cells (hUtSMCs) purchased from Lonza were cultured and treated with 17beta estradiol and progesterone either alone or in combination. In addition the 17beta estradiol and progesterone combined treated samples were also treated with the progesterone inhibitor RU486 (mifepristone). RNA was isolated after 72h from both treated and untreated control cells. The experiment was repeated 3 times. Please note that slides were scanned three times successively (i.e. 3 .gpr files per sample) and the median raw values were used as input raw data for GeneSpring analysis (Median_Table_InputRAW.xlsx).

Project description:We used microarrays to detail transcriptional changes in cultured human smooth muscle cells in response to acute and chronic 2-methoxyestradiol treatment 2-ME, an endogenous metabolite. of estradiol, not only exerts cytotoxic effects on cancer cells but it also protects against multiple proliferative disorders, including atherosclerosis and injury-induced intimal thickening Keywords: treatment vs. control

Project description:The myometrium is an important reproductive tissue composed primarily of smooth muscle cells. Contractility of the myometrial smooth muscle cells during pregnancy and labour is modulated by hormones. Despite much research, little is known about the molecular mechanism by which estrogen and progesterone regulate myometrial contractility. This study investigates global gene expression profile of cultured human uterine smooth muscle cells (hUtSMCs) following 17β-estradiol (E2) and/or progesterone treatments using cDNA microarray technology. Furthermore the effects of addition of the progesterone inhibitor RU486 were investigated. Many genes were regulated in the presence of P4 or E2 alone but almost six times these numbers were regulated in the presence of the combination. The majority of these genes returned to near baseline levels (control samples) on addition of RU486. In total 796 annotated genes were significantly differentially expressed in the combined presence of P4 and E2 (relative to untreated levels). Furthermore, 666 annotated genes were significantly regulated by the addition of RU486 to the P4/E2 combination (relative to P4/E2 levels). Gene ontology analysis of these differentially expressed genes revealed a strong association of P4/E2 treatment with the downregulated expression of genes involved in cell communication, signal transduction, channel activity, inflammatory response and differentiation. Upregulated processes included cell survival (anti-apoptosis), gene transcription, steroid hormone biosynthesis, muscle development, insulin receptor signaling and cell growth. Functional withdrawal of progesterone using RU486 effectively reversed the processes induced by P4/E2 treatment. The hUtSMC system is an additional useful model to investigate steroid effects on smooth muscle cells in isolation from other myometrial cell types.

Project description:Analysis of genes regulated by RU486 (an progesterone antagonist) in human breast cancer T47D cells and human uterine leiomyoma smooth muscle cells. The hypothesis is that RU486 inhibits tumor growth by inactivating the transcription of multiple genes which trigger critical signaling pathways to induce tumorigenesis in both breast caner and uterine leomyoma. Tissue-specific and common patterns of gene regulation may determine the therapeutic effects of antiprogestins in uterine leiomyoma and breast cancer. Total RNA isolated from T47D cells subjected to RU486 treatment for 6 hours compared to vehicle (ethanol) treated cells. Total RNA isolated from uterine leiomyoma cells subjected to RU486 treatment for 6 hours compared to vehicle (ethanol) treated cells.

Project description:Analysis of genes regulated by RU486 (an progesterone antagonist) in human breast cancer T47D cells and human uterine leiomyoma smooth muscle cells. The hypothesis is that RU486 inhibits tumor growth by inactivating the transcription of multiple genes which trigger critical signaling pathways to induce tumorigenesis in both breast caner and uterine leomyoma. Tissue-specific and common patterns of gene regulation may determine the therapeutic effects of antiprogestins in uterine leiomyoma and breast cancer. Keywords: Expression profiling by array Total RNA isolated from T47D cells subjected to RU486 treatment for 6 hours compared to vehicle (ethanol) treated cells. Total RNA isolated from uterine leiomyoma cells subjected to RU486 treatment for 6 hours compared to vehicle (ethanol) treated cells.

Project description:Glucocorticoids, which activate glucocorticoid receptor signaling and thus modulate gene expression, are widely used to treat asthma. Glucocorticoids exert their therapeutic effects in part through modulating airway smooth muscle structure and function. However, the effects of genes that are regulated by GCs on airway function are not fully understood. Here, we used transcription profiling to characterize the effects of a potent glucocorticoid, dexamethasone, on cultured human airway smooth muscle gene expression at 4 and 24 hours. This study examined differential gene expression induced by treatment of cultured human airway smooth muscle cells with dexamethasone. There were 3 groups of samples and each group had 4 biological replicates. Group 1 was no treatment, Group 2 was dexamethasone (dex) treatment for 4 hours, Group 3 was dex treatment for 24 hours. Cultures were synchronized so harvest occurred at the same time for all three groups. 2 samples are not included in this analysis (based on unsupervised clustering of samples and diagnostic plots).