Project description:We leverage RNA sequencing to identify the transcriptional changes assocaited with several experimental conditions that induce a stemness phenotype in the ovarian surface epithelium, including spheroid culture, Snail overexpression, and BRCA1 deletion
Project description:Adult Ovarian Surface Epithelium (OSE) retains the ability to undergo Epithelial to Mesenchymal Transition (EMT). We established a cell culture of murine adult OSE in their epithelial state, and we induced EMT by modifying their culture conditions. In this experiment we compare the transcriptional profile of the OSE before and after EMT.
Project description:The human kinome is incolved in multiple function in the life cycle of cells, and ther differntial expression in cacner suggests that protein kinases play an important role in tumor progression and proliferation. To delineate pathways that may be important for neoplastic change in women at high risk for ovarian cancer, we compared the expression signature of surface kinases in normal ovarian surface epithelium with ovarian epithelium from patients at high risk, and epithelial ovarian cancer using Affymetrix expresion array HG U133Plus2.
Project description:Transcriptome profiling using Affymetrix GeneChip arrays was performed on sorted populations of Lgr5-expressing mouse ovarian surface epithelium. The ovary surface epithelium (OSE) undergoes ovulatory tear-and-remodelling throughout life. Resident stem cells drive such tissue homeostasis in many adult epithelia, but their existence in the ovary has yet to be definitively proven. Lgr5 marks stem cells in multiple epithelia. Here we use reporter mice and Single Molecule Florescent-in-Situ-Hybridization (FISH) to document candidate Lgr5+ stem cells within the mouse ovary and associated structures. Lgr5 is broadly expressed during ovary organogenesis, but becomes limited to the OSE in early neonate life. In adults, Lgr5 expression is predominantly restricted to proliferative regions of the OSE and fimbria- mesovarian junction. Using conditional in vivo lineage tracing we identify embryonic and early neonate Lgr5+ populations as stem/progenitor cells contributing to the development of adult OSE and granulosa cell lineages, as well as the epithelia of the mesovarian and oviduct including its distal opening, fimbria. Long-term lineage tracing reveals that adult OSE-resident Lgr5+ populations contribute to epithelial homeostasis and OSE regenerative repair in vivo. Thus, Lgr5 is a marker of stem/progenitor cells of the ovary and tubal epithelia. Ovarian surface epithelium from pooled batches of Lgr5-eGFP-CreERT2 mice (n=8, per array) were sorted for cells expressing either high or low EGFP. Total RNA from three technical replicates per sorted population (Lgr5-high or Lgr5-low) was extracted with the RNeasy Micro Kit (QIAGEN), DNaseI-treated, and amplified with the Ovation Pico WTA V2 (NuGEN Technologies). Single-stranded cDNA amplification products were purified using QIAquick PCR Purification Kit (QIAGEN). cDNA was biotinylated using the Encore Biotin Module (NuGEN Technologies). Biotiylated cDNA was hybridized to Affymetrix Mouse Genechip ST 2.0 expression arrays.
Project description:The human kinome is incolved in multiple function in the life cycle of cells, and ther differntial expression in cacner suggests that protein kinases play an important role in tumor progression and proliferation. To delineate pathways that may be important for neoplastic change in women at high risk for ovarian cancer, we compared the expression signature of surface kinases in normal ovarian surface epithelium with ovarian epithelium from patients at high risk, and epithelial ovarian cancer using Affymetrix expresion array HG U133Plus2. A total of 18 ovarian samples were collected. The number of samples and subjects for each group were: 5 cancer samples (5 subjects), 6 normal samples (4 patients) and 7 high-risk samples (5 subjects). After the initial inspection, one cancer sample (Sample 9) was excluded from the statistical analysis due to a poor RNA quality.
Project description:The cell-of-origin of high grade serous ovarian carcinoma (HGSOC) remains controversial, with fallopian tube epithelium (FTE) and ovarian surface epithelium (OSE) both considered candidates. Here, by using genetically engineered mouse models and organoids, we assessed the tumor-forming properties of FTE and OSE harboring the same oncogenic abnormalities. Combined RB family inactivation and Tp53 mutation in Pax8+ FTE caused Serous Tubal Intraepithelial Carcinoma (STIC), which metastasized rapidly to the ovarian surface. These events were recapitulated by orthotopic injection of mutant FTE organoids. Engineering the same genetic lesions into Lgr5+ OSE or OSE-derived organoids also caused metastatic HGSOC, although with longer latency and lower penetrance. FTE- and OSE-derived tumors had distinct transcriptomes, and comparative transcriptomics and genomics suggest that human HGSOC arises from both cell types. Finally, FTE- and OSE-derived organoids exhibited differential chemosensitivity. Our results comport with a dualistic origin for HGSOC and suggest that the cell-of-origin might influence therapeutic response.
Project description:Transcriptome profiling using Affymetrix GeneChip arrays was performed on sorted populations of Lgr5-expressing mouse ovarian surface epithelium. The ovary surface epithelium (OSE) undergoes ovulatory tear-and-remodelling throughout life. Resident stem cells drive such tissue homeostasis in many adult epithelia, but their existence in the ovary has yet to be definitively proven. Lgr5 marks stem cells in multiple epithelia. Here we use reporter mice and Single Molecule Florescent-in-Situ-Hybridization (FISH) to document candidate Lgr5+ stem cells within the mouse ovary and associated structures. Lgr5 is broadly expressed during ovary organogenesis, but becomes limited to the OSE in early neonate life. In adults, Lgr5 expression is predominantly restricted to proliferative regions of the OSE and fimbria- mesovarian junction. Using conditional in vivo lineage tracing we identify embryonic and early neonate Lgr5+ populations as stem/progenitor cells contributing to the development of adult OSE and granulosa cell lineages, as well as the epithelia of the mesovarian and oviduct including its distal opening, fimbria. Long-term lineage tracing reveals that adult OSE-resident Lgr5+ populations contribute to epithelial homeostasis and OSE regenerative repair in vivo. Thus, Lgr5 is a marker of stem/progenitor cells of the ovary and tubal epithelia.
Project description:We present evidence for cytogenetic changes in two transformed ovarian surface epithelium cell lines, TOSE1 and TOSE4. hTERT-immortalised ovarian surface epithelial cell line spontaneously transformed as measured by growth in soft agar. These cells were grown on plastic, and genomic DNA was extracted and analyzed for cytogenetic changes.
Project description:We present evidence for cytogenetic changes in two transformed ovarian surface epithelium cell lines, TOSE1 and TOSE4. hTERT-immortalised ovarian surface epithelial cell line spontaneously transformed as measured by growth in soft agar. These cells were grown on plastic, and genomic DNA was extracted and analyzed for cytogenetic changes. The genotyping Affymetrix SNP6.0 arrays were used to define copy number changes in the TOSE1 and TOSE4 cell lines.