Project description:Non-coding RNA plays an important regulatory role in the occurrence and development of hypoxic pulmonary hypertension (HPH). Therefore, we use high-throughput RNA sequence and bioinformatics methods to analyze the whole transcriptome HPH rats in lung tissue.

Project description:Mammalian reproduction is dependent on the gonadotropins, follicle-stimulating hormone (FSH) and luteinizing hormone, which are secreted by pituitary gonadotrope cells. The zinc-finger transcription factor, GATA2, was previously implicated in FSH production in male mice, although its mechanisms of action and role in females were not determined. To address these gaps in knowledge, we generated and analyzed gonadotrope-specific Gata2 knockout mice using the Cre-lox system. While conditional knockout (cKO) males exhibited ~50% reductions in serum FSH levels and pituitary FSHβ subunit (Fshb) expression relative to controls, FSH production was apparently normal in cKO females. RNA-seq analysis of purified gonadotropes from control and cKO males revealed a profound decrease in expression of gremlin (Grem1), a bone morphogenetic protein (BMP) antagonist. Grem1 was expressed in gonadotropes, but not other cell lineages, in the adult male mouse pituitary. Gata2, Grem1, and Fshb mRNA levels were significantly higher in pituitaries of wild-type males relative to females but decreased in males treated with estradiol and increased following ovariectomy in control but not cKO females. Recombinant gremlin stimulated Fshb expression in pituitary cultures from wild-type mice. Collectively, the data suggest that GATA2 promotes Grem1 expression in gonadotropes and that the gremlin protein potentiates FSH production. The mechanisms of gremlin action have not yet been established but may involve attenuation of BMP binding to activin type II receptors in gonadotropes, potentiating induction of Fshb transcription by activins or related ligands.

Project description:Mammalian reproduction is dependent on the gonadotropins, follicle-stimulating hormone (FSH) and luteinizing hormone, which are secreted by pituitary gonadotrope cells. The zinc-finger transcription factor, GATA2, was previously implicated in FSH production in male mice, although its mechanisms of action and role in females were not determined. To address these gaps in knowledge, we generated and analyzed gonadotrope-specific Gata2 knockout mice using the Cre-lox system. While conditional knockout (cKO) males exhibited ~50% reductions in serum FSH levels and pituitary FSHβ subunit (Fshb) expression relative to controls, FSH production was apparently normal in cKO females. RNA-seq analysis of purified gonadotropes from control and cKO males revealed a profound decrease in expression of gremlin (Grem1), a bone morphogenetic protein (BMP) antagonist. Grem1 was expressed in gonadotropes, but not other cell lineages, in the adult male mouse pituitary. Gata2, Grem1, and Fshb mRNA levels were significantly higher in pituitaries of wild-type males relative to females but decreased in males treated with estradiol and increased following ovariectomy in control but not cKO females. Recombinant gremlin stimulated Fshb expression in pituitary cultures from wild-type mice. Collectively, the data suggest that GATA2 promotes Grem1 expression in gonadotropes and that the gremlin protein potentiates FSH production. The mechanisms of gremlin action have not yet been established but may involve attenuation of BMP binding to activin type II receptors in gonadotropes, potentiating induction of Fshb transcription by activins or related ligands.

Project description:Mammalian reproduction is dependent on the gonadotropins, follicle-stimulating hormone (FSH) and luteinizing hormone, which are secreted by pituitary gonadotrope cells. The zinc-finger transcription factor, GATA2, was previously implicated in FSH production in male mice, although its mechanisms of action and role in females were not determined. To address these gaps in knowledge, we generated and analyzed gonadotrope-specific Gata2 knockout mice using the Cre-lox system. While conditional knockout (cKO) males exhibited ~50% reductions in serum FSH levels and pituitary FSHβ subunit (Fshb) expression relative to controls, FSH production was apparently normal in cKO females. RNA-seq analysis of purified gonadotropes from control and cKO males revealed a profound decrease in expression of gremlin (Grem1), a bone morphogenetic protein (BMP) antagonist. Grem1 was expressed in gonadotropes, but not other cell lineages, in the adult male mouse pituitary. Gata2, Grem1, and Fshb mRNA levels were significantly higher in pituitaries of wild-type males relative to females but decreased in males treated with estradiol and increased following ovariectomy in control but not cKO females. Recombinant gremlin stimulated Fshb expression in pituitary cultures from wild-type mice. Collectively, the data suggest that GATA2 promotes Grem1 expression in gonadotropes and that the gremlin protein potentiates FSH production. The mechanisms of gremlin action have not yet been established but may involve attenuation of BMP binding to activin type II receptors in gonadotropes, potentiating induction of Fshb transcription by activins or related ligands.

Project description:There are concerns regarding possible reproductive toxicity from consumption of soy including an increased risk of endometriosis and endometrial cancer. We used global uterine gene expression profiles in adult ovariectomized (OVX) female rats assessed by RNAseq to examine the estrogenicity of soy protein isolate (SPI) and the potential for feeding SPI to alter estrogen signaling in the uterus. Rats were fed AIN93G diets made with casein (CAS) or SPI from postnatal day (PND) 30. Rats were OVX on PND 50 and infused with 17 beta-estradiol (E2) or vehicle. E2 increased uterine wet weight (P<0.05) and significantly altered expression of 2084 uterine genes. In contrast, SPI feeding had no effect on uterine weight and only altered expression of 177 genes. Overlap between E2 and SPI genes was limited to 69 genes (3%). GO analysis indicated significant differences in uterine biological processes affected by E2 and SPI and little evidence for recruitment of ER alpha  to the promoters of ER-responsive genes after SPI feeding. The major E2 up-regulated uterine pathways were cancer pathways and extracellular organization. SPI feeding up-regulated uterine PPAR signaling and fatty acid metabolism.  The combination of E2 and SPI feeding resulted in significant regulation of 715 fewer genes relative to E2 alone.  In a separate experiment, the combination of E2 and SPI reversed the ability of E2 to induce uterine proliferation in response to the carcinogen dimethybenz(a)anthracene (DMBA). These data suggest SPI does not act as a weak estrogen in the uterus but appears to be a selective estrogen receptor modulator (SERM) interacting with a small sub-set of E2-regulated genes and to be anti-estrogenic in the presence of endogenous estrogens.    Rat uterus mRNA of ovariectomized adult female rats subject to four different diets (Caseine, Caseine + E2, Soy and Soy+E2 ) were sequenced, in triplicate, in an Illumina GAIIx sequencer.

Project description:There are concerns regarding possible reproductive toxicity from consumption of soy including an increased risk of endometriosis and endometrial cancer. We used global uterine gene expression profiles in adult ovariectomized (OVX) female rats assessed by RNAseq to examine the estrogenicity of soy protein isolate (SPI) and the potential for feeding SPI to alter estrogen signaling in the uterus. Rats were fed AIN93G diets made with casein (CAS) or SPI from postnatal day (PND) 30. Rats were OVX on PND 50 and infused with 17 beta-estradiol (E2) or vehicle. E2 increased uterine wet weight (P<0.05) and significantly altered expression of 2084 uterine genes. In contrast, SPI feeding had no effect on uterine weight and only altered expression of 177 genes. Overlap between E2 and SPI genes was limited to 69 genes (3%). GO analysis indicated significant differences in uterine biological processes affected by E2 and SPI and little evidence for recruitment of ER alpha  to the promoters of ER-responsive genes after SPI feeding. The major E2 up-regulated uterine pathways were cancer pathways and extracellular organization. SPI feeding up-regulated uterine PPAR signaling and fatty acid metabolism.  The combination of E2 and SPI feeding resulted in significant regulation of 715 fewer genes relative to E2 alone.  In a separate experiment, the combination of E2 and SPI reversed the ability of E2 to induce uterine proliferation in response to the carcinogen dimethybenz(a)anthracene (DMBA). These data suggest SPI does not act as a weak estrogen in the uterus but appears to be a selective estrogen receptor modulator (SERM) interacting with a small sub-set of E2-regulated genes and to be anti-estrogenic in the presence of endogenous estrogens.   

Project description:Protein synthesis belongs to the most energy consuming processes in the cell. Lowering oxygen tension below normal (hypoxia) causes a rapid inhibition of global mRNA translation due to the decreased availability of energy. Interestingly, subsets of mRNAs pursue active translation under such circumstances. In human fibrosarcoma cells (HT1080) exposed to prolonged hypoxia (36 h, 1% oxygen) we observed that transcripts are either increasingly or decreasingly associated with ribosomes localized at the endoplasmic reticulum (ER). In a global setting it turned out that only 31% of transcripts showing elevated total-RNA levels were also increasingly present at the ER in hypoxia. These genes, regulated by its expression as well as its ER-localization, belong to the gene ontology’s “hypoxia response”, “glycolysis” and “HIF-1 transcription factor network” supporting the view of active mRNA translation at the ER during hypoxia. Interestingly, a large group of RNAs was found to be unchanged at the expression level, but translocate to the ER in hypoxia. Among these are transcripts encoding translation factors and >180 ncRNAs. In summary, we provide evidence that protein synthesis is favoured at the ER and, thus, partitioning of the transcriptome between cytoplasmic and ER associated ribosomes mediates adaptation of gene expression in hypoxia. Human fibrosarcoma HT1080 cells were cultured for 36 h under control/atmospheric (21% O2, 5% CO2, 37 °C) or hypoxic (1% O2, 5% CO2, 37°C) conditions. Total RNA (representing expression level) and ER (endoplasmatic reticulum)-RNA (representing transcript localization at ER) was isolated for both conditions. Pooled RNA samples from 5 independent biological experiments were used for microarray analysis.

Project description:Osteoarthritis (OA) is characterised by an irreversible degeneration of articular cartilage. Here we show that the BMP-antagonist Gremlin 1 (Grem1) marks a bipotent chondrogenic and osteogenic progenitor cell population within the articular surface. Notably, these progenitors are depleted by injury-induced OA and increasing age. OA is also caused by ablation of Grem1 cells in mice. Transcriptomic and functional analysis in mice found that articular surface Grem1-lineage cells are dependent on Foxo1 and ablation of Foxo1 in Grem1-lineage cells caused OA. FGFR3 signalling was confirmed as a promising therapeutic pathway by administration of pathway activator, FGF18, resulting in Grem1-lineage chondrocyte progenitor cell proliferation, increased cartilage thickness and reduced OA. These findings suggest that OA, in part, is caused by mechanical, developmental or age-related attrition of Grem1 expressing articular cartilage progenitor cells. These cells, and the FGFR3 signalling pathway that sustains them, may be effective future targets for biological management of OA.

Project description:This project aimed at assessing the influence of hypoxic stress on Estrogen receptor alpha genome wide binding to chromatin, in presence or absence of E2 ligand. I also aimed at assessing if a 1-month hypoxic stress followed by 1 month of normoxia imprints an epigenetic memory, therefore altering genome wide ER binding (rescue condition).

Project description:Menopausal estrogen (E2) replacement therapy increases the risk of estrogen receptor (ER)-positive epithelial ovarian cancers (EOC). Whether E2 is tumorigenic or promotes expansion of undiagnosed pre-existing disease is unknown. To determine E2 effects on tumor promotion, we developed an intraperitoneal mouse xenograft model using ZsGreen fluorescent ER- 2008 and ER+ PEO4 human EOC cells. Tumor growth was quantified by in vivo fluorescent imaging. In ER+ tumors, E2 significantly increased size, induced progesterone receptors, and promoted lymph node metastasis, confirming that ER are functional and foster aggressiveness. Laser captured human EOC cells from ER- and ER+ xenografted tumors were profiled for expression of E2-regulated genes. Three classes of E-regulated EOC genes were defined, but less than 10% were shared with E-regulated breast cancer genes. Since breast cancer selective ER modulators (SERM) are therapeutically ineffective in EOC, we suggest that our EOC-specific E-regulated genes can assist pharmacologic discovery of ovarian targeted SERM.