Project description:We treated 6-8 week old mice that had floxed alleles of both Apc and Pten (for both alleles in each case) that also carry an Ovgp1-iCre-ERT2 transgene, with one of two treatments; a third group received neither treatment. The Ovgp1-iCre-ERT2 expresses Cre recombinase fused to a tamoxifen-inducible fragment of the estrogen receptor, in tissues where the Ovgp1 gene (oviductal glycoprotein 1) is expressed, which is almost exclusively in mouse oviductal epithelium (equivalent to human fallopian tube epithelium = FTE). Treating the mice with tamoxifen permits the Cre recombinase to enter the cell nucleus and inactivate the Apc and Pten genes. Six of the mice were treated with intraperitoneal injection of tamoxifen (0.1g/kg of body weight) dissolved in corn oil on days 1 and 3 and developed oviductal tumors (OdT) yielding 6 of the samples. Four mice (yielding 5 samples) were instead injected with 50 million plaque-forming units of replication-incompetent AdCre into both ovarian bursal cavities on day 1, which inactivated Apc and Pten in the ovarian surface epithelium (OSE), and lead to ovarian tumors (OT). Ovaries were also harvested from four untreated 6-8 week old mice with the same genotype, with two ovaries from each mouse comprising one control sample. RNA was purified from tumor or normal tissue, and targets for Affymetrix arrays synthesized from the mRNAs. We used Affymetrix Mouse Gene 2.1 ST arrays, which hold 41345 probe-sets, but we largely analyzed just those 25216 probe-sets that were mapped to Entrez gene IDs. Raw data was processed with Robust Multi-array Average algorithm (RMA). Data is log2-transformed transcript abundance estimates. We fit a one-way ANOVA model to the three groups of samples. We supply a supplementary excel workbook that holds the same data as the data matrix file, but also holds the probe-set annotation at the time we analyzed the data, and some simple statistical calculations, which select subsets of the probe-sets as differentially expressed. Consumers should consider obtaining more up-to-date probe-set annotation for the array platform. We also provide supplementary excel files that show our simple analysis of GSE6008, which consists of 99 human ovarian tumor samples of 4 types, and 4 normal ovary samples, where we fit an ANOVA model to the 5 groups. In yet another supplementary file we show the correlation between each human tumor and mouse tumor, where we correlate the difference in log2-transformed values of each tumor from the average of the normals for the same species, for just those genes that were 1-to-1 best homologs according to build 68 of NCBI's Homologene, in order to see how much the human tumors resemble the mouse tumors. Six oviductal tumor samples from 6 mice with conditional knockout of Apc and Pten driven by an Ovgp1-iCre-ERT2 transgene , 5 ovarian tumor samples from 4 mice with conditional knockout of Apc and Pten driven by injection of AdCre into both ovarian bursal cavities, and 4 normal ovary samples from 4 mice.

Project description:We mated mice with floxed alleles of both Apc and Pten, to mice with floxed alleles for Arid1a, to obtain female mice with both copies of all three genes floxed. At 7 to 8 weeks of age the right ovarian bursal cavites of the mice were injected with 50 million plaque-forming units of adenovirus expressing Cre recombinase, which causes the floxed genes to be knocked out. Tumor tissue from 3 mice for each group was obtained at necropsy, RNA purified, and targets for Affymetrix arrays synthesized from the mRNAs. We used Affymetrix Mouse Genome 430 2.0 arrays, which hold 45101 probe-sets. Raw data was processed with Robust Multi-array Average algorithm (RMA). Data is log2-transformed transcript abundance estimates. We performed T-tests to compare the 3 vs 3 arrays. We supply a supplementary excel workbook that holds the same data as the data matrix file, but also holds the probe-set annotation at the time we analyzed the data, and some very simple statistical calculations, which select subsets of the probe-sets as differentially expressed. Consumers should consider obtaining more up-to-date probe-set annotation for the array platform. We have also supplied a second supplementary tar archive holding software and files to 1) perform permutation testing of the probe-set selection in order to estimate false discovery rates for the probe-sets we selected as differentially expressed, 2) perform enrichment testing of GO terms, and 3) to perform enrichment testing of KEGG pathways and 3000 curated gene sets from version 4 of the Molecular Signatures Database (MSigDB). The software is in "C". Ovarian endometrioid carcinoma samples from 3 female mice with conditional knockout of Apc and Pten, were compared to similar tumors from 3 female mice with conditional knockout of Apc, Pten, and Arid1a.

Project description:We treated 6-8 week old mice that had floxed alleles of both Apc and Pten (for both alleles in each case) that also carry an Ovgp1-iCre-ERT2 transgene, with one of two treatments; a third group received neither treatment. The Ovgp1-iCre-ERT2 expresses Cre recombinase fused to a tamoxifen-inducible fragment of the estrogen receptor, in tissues where the Ovgp1 gene (oviductal glycoprotein 1) is expressed, which is almost exclusively in mouse oviductal epithelium (equivalent to human fallopian tube epithelium = FTE). Treating the mice with tamoxifen permits the Cre recombinase to enter the cell nucleus and inactivate the Apc and Pten genes. Six of the mice were treated with intraperitoneal injection of tamoxifen (0.1g/kg of body weight) dissolved in corn oil on days 1 and 3 and developed oviductal tumors (OdT) yielding 6 of the samples. Four mice (yielding 5 samples) were instead injected with 50 million plaque-forming units of replication-incompetent AdCre into both ovarian bursal cavities on day 1, which inactivated Apc and Pten in the ovarian surface epithelium (OSE), and lead to ovarian tumors (OT). Ovaries were also harvested from four untreated 6-8 week old mice with the same genotype, with two ovaries from each mouse comprising one control sample. RNA was purified from tumor or normal tissue, and targets for Affymetrix arrays synthesized from the mRNAs. We used Affymetrix Mouse Gene 2.1 ST arrays, which hold 41345 probe-sets, but we largely analyzed just those 25216 probe-sets that were mapped to Entrez gene IDs. Raw data was processed with Robust Multi-array Average algorithm (RMA). Data is log2-transformed transcript abundance estimates. We fit a one-way ANOVA model to the three groups of samples. We supply a supplementary excel workbook that holds the same data as the data matrix file, but also holds the probe-set annotation at the time we analyzed the data, and some simple statistical calculations, which select subsets of the probe-sets as differentially expressed. Consumers should consider obtaining more up-to-date probe-set annotation for the array platform. We also provide supplementary excel files that show our simple analysis of GSE6008, which consists of 99 human ovarian tumor samples of 4 types, and 4 normal ovary samples, where we fit an ANOVA model to the 5 groups. In yet another supplementary file we show the correlation between each human tumor and mouse tumor, where we correlate the difference in log2-transformed values of each tumor from the average of the normals for the same species, for just those genes that were 1-to-1 best homologs according to build 68 of NCBI's Homologene, in order to see how much the human tumors resemble the mouse tumors.

Project description:We engineered mice to have Ovgp1 promotor-driven expression of a tamoxifen-inducible Cre recombinase (iCre-ERT2), which inactivated the function of combinations of engineered floxed alleles of combinations of tumor suppressor genes in mouse oviducts (Fallopian tube) when mice were treated with tamoxifen. 21 samples were from oviductal tumors from mice with combinations of floxed alleles of Brca1, Trp53, Rb1, and/or Nf1 (BPRN mice), of which we analyzed 19. 6 samples were from oviductal tumors of mice with floxed alleles of Apc and Pten. 4 control samples were from pooled ovaries from BPRN mice that were not tamoxifen treated, and 4 other control samples were similar pools from mouse oviducts. Our goal was to investigate the similarity of these mouse models of ovarian cancer with different subgroups of human ovarian cancer. We provide raw read data, mapped count data for genes and transcripts, several normalizations of the count data, and supplementary files that contain our first analyses, and may be convenient for consumers wanting to investigate details about their favorite genes. The supplementary files are briefly described in our supplementary file Readme_GEOsupplements_s0.txt.

Project description:The goals of this study are to compare mouse oviductal transcriptome profiling (RNA-seq) of PTEN-depleted cells by shRNA versus a scr shRNA control expressing PTEN.

Project description:We wanted to assess the role of Lef1 in ex vivo organoids using genetic mouse models of intestinal adenomas and scRNA-seq technology. Tumorigenesis was initiated by inducing Apc mutation in Lgr5+ stem cells. Intestinal cells of Lgr5-CreERT;Apc fl/fl (LApc) mouse and Lgr5-CreERT;Apc fl/fl; Lef1 fl/fl (LApcL) mouse were used to generate adenoma organoids. Organoids were cultured without growth factors for three passages and dissociated with Tryple express. We used WT mice as a control to distinguish adenoma cells. WT organoids were cultured with growth factors.

Project description:Ovarian cancer is the fifth leading cause of cancer death among US women. Evidence supports the hypothesis that high-grade serous ovarian cancers (HGSC) may originate in the distal end of the fallopian tube. Although a heterogeneous disease, 96% of HGSC contain mutations in p53. In addition, the “p53 signature”, or overexpression of p53 protein (usually associated with mutation), is a potential precursor lesion of fallopian tube derived HGSC suggesting an essential role for p53 mutation in early serous tumorigenesis. To further clarify p53-mutation dependent effects on cells, murine oviductal epithelial cells (MOE) were stably transfected with a construct encoding for the R273H DNA binding domain mutation in p53, the most common mutation in HGSC. Mutation in p53 was not sufficient to transform MOE cells, but did significantly increase cell migration. A similar p53 mutation in murine ovarian surface epithelium (MOSE), another potential progenitor cell for serous cancer, was not sufficient to transform the cells nor change migration suggesting tissue specific effects of p53 mutation. Microarray data confirmed expression changes in pro-migratory genes in p53R273H MOE compared to parental cells, which could be reversed by suppressing Slug expression. Combining p53R273H with KRASG12V activation caused transformation of MOE into high-grade sarcomatoid carcinoma when xenografted into nude mice. Elucidating the specific role of p53R273H in the fallopian tube will improve understanding of changes at the earliest stage of transformation and could help develop chemopreventative strategies to prevent the accumulation of additional mutations and reverse progression of the “p53 signature” thereby, improving survival rates. We used a microarray to determine global changes in gene expression as a result of the p53 mutation specifically in mouse oviductal epithelium. Murine oviductal cells (MOE) were obtained from Dr. Barbara Vanderhyden at the University of Ottawa. Stable cell lines were generated using antibiotic resistant plasmids containing p53 R273H (Addgene, plasmid: 16439, donated by Dr. Vogelstein, Johns Hopkins University school of Medicine, Baltimore, MD) or pCMV-Neo (Origene PCMV6XL4, Rockville, MD). Total RNA was extracted from cell pellets collected from consecutive passages.

Project description:Loss of the APC tumor suppressor in the intestinal epithelium initiates the majority of human colorectal adenocarcinomas. Constitutive β-catenin activation is thought to underlie tumorigenesis induced by loss of APC, however β-catenin activation alone does not recapitulate all APC-loss phenotypes, suggesting that additional pathways are required. We demonstrate that aberrant activation of the Msi1 RNA binding protein occurs upon APC loss and that constitutive Msi1 activation alone is sufficient to phenocopy APC loss in the intestinal epithelium. Msi1 elicits these effects through binding of mRNAs encoding pleiotropic tumor suppressors resulting in promiscuous activation of quiescent intestinal stem cells, proliferative expansion of the stem cell compartment, crypt fission, and blocked differentiation. Further, we find these phenotypes to be largely dependent on mTORC1 activity, and demonstrate that loss of Msi activity is sufficient to abrogate tumorigenesis in mouse and human systems. Our findings implicate Msi1 as a central coordinator of APC loss-induced intestinal stem cell transformation and adenocarcinoma progression. 2 wild-type, 2 transgenic samples

Project description:Purpose: Transcriptome profiling of organoids/tissues derived from murine oviduct and OSE was performed to study and compare the gene expression profiles in the both suspected origins of HG-SOC. CRISPR-Cas9 modified oviductal organoids (TBP clones, which were mutated in Trp53, Brca1 and Pten), the tumors derived upon xenotransplantation of the TBP-clones and subsequent tumor-derived organoids were additionally profiled to show the transcriptional change upon aquiring mutations and tumor development. Methods: Both oviductal and OSE organoids as well as oviductal TBP-clones and tumor-derived organoids were grown in Wnt-conditioned media prior harvesting for RNA extraction. Additionally, RNA was extracted from healthy oviductal and OSE tissues and Ovi-TBP-clone-derived tumor tissues. RNA was converted to cDNA and libraries were prepared using the CelSeq2 method and sequenced. Samples were sequenced on Illumina NextSeq500 by using 75-bp paired-end sequencing. Paired-end reads from Illumina sequencing were aligned to the mouse genome (GRCm38 assembly) by BWA. DESeq2 (v1.18.0) package was used for read normalization and differential expression analysis. Gene set enrichment analysis (GSEA) was performed using gene lists for motile cilium assembly against normalized RNA-seq reads of healthy oviductal an OSE organoids using GSEA software v3.0 beta2. GSEA was additionally used to detect enrichment of signature gene sets of different HG-SOC subtypes in the TBP-clone-derived murine tumors Results: Transcriptome analysis of oviductal and OSE organoids/tissues revealed tissue-specific gene expression pattern in the organoid systems. In contrast to OSE counterparts, oviductal organoids showed enrichment in motile cilium assembly genes, reflecting the presence of ciliated cells in this model. Results: Oviductal TBP-clones gave rise to different tumor phenotypes with distinct gene expression profiles. Analysis of the transcriptomes of these tumors divided the TBP-clone-derived tumors into two distinct HG-SOC molecular subtypes (differentiated- or immunoreactive-like subtypes), confirming the potential of organoids in modeling HG-SOC. Results: The tumor-derived organoids retained the distinct phenotypes observed in the originating Ovi-TBP-clone derived tumors. Subset of tumors showed epithelial and others mesenchymal features that were maintained in the respective organoid cultures also in the gene expression level. Conclusions: RNA sequencing showed tissue specific differences in murine oviductal and OSE organoids, and revealed HG-SOC-like features of oviductal mutants.

Project description:Mice with (i) PR-Cre; (ii) PR-Cre, Fbxw7 R482Q/+; (iii) PR-Cre, Pten fl/fl; (iv) PR-Cre, Pten fl/fl, Fbxw7 R482Q/+ Uterine RNA was harvested at 8 weeks age and expression profiling done by Affymetrix Clariom S Mouse HT array