Project description:RNA-seq analysis of five retinoblastoma tumor samples to compare expression signature with retinal organoids generated from hESCs in vitro and modelling retinoblastoma

Project description:Intestinal epithelial organoids established from resected gut tissue have become a widely used research tool. However, it remains unclear how environmental cues and other sources of variation before, during and after establishment impact on organoid properties. Divergent microbiota composition in separately held mouse lines has been identified as a confounding factor in murine in vivo studies. To probe the effect of donor microbiota on organoids, we analyzed the proteomes and transcriptomes of primary organoid cultures established from colonized and germ-free mice, and further compared them to their tissue of origin and to commonly used cell lines. The long-term global impact of donor microbiota on organoid expression patterns was negligible. Instead, stochastic culture-to-culture differences accounted for a moderate variability between independently established organoids. Integration of transcriptome and proteome datasets revealed an organoid-typic expression signature comprising 14 transcripts and 10 proteins that distinguished organoids across all donors from murine epithelial cell lines and fibroblasts. This signature, which closely mimicked expression patterns in the gut epithelium, included high levels of the inflammasome scaffold protein ASC in organoids which was lacking in commonly used cell lines. Mining of the transcriptome dataset uncovered similar high expression of also other inflammasome components, including Naip1-6, Nlrc4, and Caspase-1 in all organoids compared to the reference cell lines. Taken together, these results reveal a robust global expression pattern in organoids established from colonized and germ-free animals and suggest that organoids represent a more suitable culture model than immortalized cell lines for studies of intestinal epithelial inflammasomes.

Project description:3D cell culture systems (organoids), cultured from extrahepatic bile duct biopsies, resemble biliary epthelium (cholangiocytes) upon culture according to the protocol previously established for culturing intrahepatic cholangiocyte organoids from liver biopsies (Huch et al. Cell 2015). These extrahepatic cholangiocyte organoids (ECOs) in Canonical-Wnt culture conditions maintain their genetic stability, and transcription profile and can be maintained and propagated during long periods of culturing while still maintaining their functional properties. The data presented in this ArrayExpress submission contained micro array results of 3 different ECO lines that were analyzed for their functional cholangiocyte ion-channels, involved in secreting a protective bicarbonate layer. It was shown that these data closely resemble the expression profile of intrahepatic cholangiocyte organoids (ICOs) as described by our group. Results of the ICOs are deposited in the EMBL-EBI ArrayExpress repository under number E-MTAB-9044.

Project description:3D cell culture systems (organoids), cultured from liver biopsies, resemble biliary epthelium (cholangiocytes) upon culture. These intrahepatic cholangiocyte organoids (ICOs) maintain their gentic stability, transcription profile and can be maintained propagated during long periods of culturing while still maintaining their functional properties. The data presented in this ArrayExpress submission contained micro array results of 6 from 15 different ICO lines that were analyzed for their functional cholangiocyte ion-channels, involved in secreting a protective bicarbonate layer. It was shown that these data closely resemble the expression profiles of extrahepatic cholangiocyte organoids (ECOs), previously described by Sampaziotis et al. and deposited in the EMBL-EBI ArrayExpress repository (E-MTAB-4591)

Project description:Direct comparison of conventional Vs. TOP proteome extraction, and effcts of fixation-time

Project description:In this project, we aimed to examine gene expression changes in intestinal organoids treated with the complement C5a receptor 1 (C5aR1) antagonist PMX205 either with or without irradiation. Intestinal organoids from wild-type C57BL/6 mice were cultured and plated. The following day, the media was supplemented with 5 μg/ml of PMX205 or a vehicle control, and after one hour, organoids were subjected to either 0 Gy or 9 Gy of radiation. Samples were collected after 24 and 48 hours, and RNA was extracted and processed for RNA sequencing.

Project description:The earliest recognizable stages of breast neoplasia are lesions that represent a heterogeneous collection of epithelial proliferations currently classified based on morphology. Their role in the development of breast cancer is not well understood but insight into the critical events at this early stage will improve efforts in breast cancer detection and prevention. These microscopic lesions are technically difficult to study so very little is known about their molecular alterations. To characterize the transcriptional changes of early breast neoplasia, we sequenced 3'- end enriched RNAseq libraries from formalin-fixed paraffin-embedded tissue of early neoplasia samples and matched normal breast and carcinoma samples from 25 patients. We find that gene expression patterns within early neoplasias are distinct from both normal and breast cancer patterns and identify a pattern of pro-oncogenic changes, including elevated transcription of ERBB2, FOXA1, and GATA3 at this early stage. We validate these findings on a second independent gene expression profile data set generated by whole transcriptome sequencing. Measurements of protein expression by immunohistochemistry on an independent set of early neoplasias confirms that ER pathway regulators FOXA1 and GATA3, as well as ER itself, are consistently upregulated at this early stage. The early neoplasia samples also demonstrate coordinated changes in long non-coding RNA expression and microenvironment stromal gene expression patterns. This study is the first examination of global gene expression in early breast neoplasia, and the genes identified here represent candidate participants in the earliest molecular events in the development of breast cancer. 3SEQ was performed on 72 FFPE human breast samples from 25 patients: 24 normal, 25 early neoplasia, 9 carcinoma in situ, and 14 invasive cancer

Project description:Background: Metastases to the brain from breast cancer have a high mortality. Basal-like and HER2 positive breast cancers appear to have a high propensity to spread to the brain. The mechanisms that allow cells to colonise the brain are unclear. Methods: We have analysed matched and unpaired samples of breast cancer and brain metastases using morphology, immunophenotype and expression profiling and validated the data using in vitro cell culturing models and in vivo mice model. Results: Most of the brain metastases were triple negative and had a basal-like phenotype. Metastatic cells to the brain over-expressed HER3 compared to primaries and showed evidence of higher activation of the MAPK pathways. Inhibition using anti-neuregulin antibody, Herceptin and Lapatinib reduced tumour growth in vitro and in vivo. Conclusions: The data demonstrate activation of neuregulin-HER3 pathway in brain metastases from breast cancer and suggest that even in absence of HER2 amplification (as with triple negative and basal cancers), anti-epidermal growth factor receptor family inhibitors may have a role in treating these patients An initial set of 29 matched pairs of primary breast cancer and their brain metastases and 22 unmatched brain metastases of from breast cancer was were available as formalin fixed-paraffin embedded (FFPE) tumor blocks. A second set of validation samples comprisinged of 10 matched pairs of primary breast cancer and their corresponding brain metastases and a further 11 non-breast metastatic brain cancers tumours fromn non-breast sites (one melanoma, six lung adenocarcinomas, one prostate carcinoma, one colon carcinoma and two renal cell carcinomas was also studied. After filtering DASL data on the first set of samples, 15/29 matched pairs and 22/22 unmatched metastases remained available for analysis for the initial set. In the second set all samples were analysed. RNA extraction and Real-Time RT-PCR Three 5μm thick FFPE sections of clinical samples, parental cell line MB-MDA-231 cell line (fixed in paraformoldehyde and embedded in paraffin) and intracranial mouse tumours were cut and de-waxed in two lots of xylene and two lots of 100% ethanol, 10 minutes each. RNA was extracted using the High Pure RNA Paraffin Kit® (Roche Applied Science, Mannheim, Germany) according to the manufacturer’s protocol. RNA was quantified using the NanoDrop® ND-1000 (NanoDrop Technologies, DE, USA). RT-PCR for HER3 and housekeeping genes GAPDH and RPL13a was carried out using the Rotor-gene system (Corbett Life Science, Australia). Complementary DNA (cDNA) was synthesized from 240ng of total RNA using oligodT16 primers and the SuperScriptTM III Reverse Transcriptase kit (Invitrogen, Carsbald, CA, USA). A standard curve for gene expression of HER3 and GAPDH and RPL13a was constructed using total RNA from a human breast cancer cell line (SKBR-3). Replicates of 10-fold dilutions of RNA in water were made to give 3 different calibrators, each with a known amount of SKBR-3 RNA for which arbitrary copy number were given. The PCR conditions were: 50°C for 2 minutes, 95°C for 2 minutes, followed by 40 cycles with the following profile: denaturation at 95°C for 20 seconds, annealing at 60°C for 15 seconds, extension at 72°C for 20 seconds. Flourescent incorporation was acquired in the green channel during the 72°C incubations. Intron spanning primer sequences were: GAPDH (5’CTGCACCACCAACTGCTTAG3’, 5’GTCTTCTGGGTGGCA GTGAT3’), RPL13a (5’GTTGGTGTTCATCCGTTG3’, 5’GTACGCTGTGAAGCATCAA3’), HER3 (5’TGGTTCATGGGCATGTATCC3’, 5’CTAGACCTAAGACTTGGAGC3’). DASL gene expression profilingGene expression profiling was performed using the DASL assay (cDNA-mediated annealing, selection extension and ligation, Illumina Inc., California, USA) interrogating the DASL Cancer Panel that contained 512 cancer related genes. The first and second sets of samples were analyzed in two independent experiments. Tumours arising from the animal experiment were analyzed in conjunction with the second set of clinical samples. All protocols were as specified by Illumina Inc. Briefly, RNA (250ng) was converted to cDNA through a reverse transcription reaction with biotinylated oligo-d(T)18 and random nonamers. Oligonucleotides (three unique pairs for each of the 512 genes) were annealed to the biotinylated cDNA, the duplexes were bound to streptavidin conjugated paramagnetic particles to remove non-hybridized oligos. The annealed oligos were then extended and ligated (to incorporate an address sequence and primer site) to generate amplifiable products. These products were subjected to PCR amplification using fluorescently labeled (Cy3 and Cy5) primers. The labeled PCR products were hybridized to a Sentrix array or Beadchip. Following hybridization, the arrays were scanned with a BeadArray Reader (Illumina) and data was extracted using BeadStudio software (Illumina). Samples exhibiting a median hybridization intensity across all probes of <600 (background corrected) were excluded from analysis. Probes with a BeadStudio detection score greater than 0.99 in more than 15 conditions were included. Array data transformation and normalization (per chip normalized to 50th percentile and per gene normalized to median) was done in Genespring® version 7.0 software (Agilent Technologies, Santa Clara, USA). Hierarchical clustering was performed using: Similarity measure; Pearson Correlation and clustering algorithm; Average Linkage. Genes differentially expressed between primary tumors and brain metastases were identified using analysis of variance (ANOVA, p<0.01) or parametric test, variances not assumed equal (Welch t-test, p < 0.005). Up and down regulation was considered for normalized data values that were greater or less than a factor of 2 fold for the conditions compared.

Project description:This SuperSeries is composed of the following subset Series: GSE14682: Metastatic breast cancer to the brain: set 1 GSE14683: Metastatic breast cancer to the brain: set 2 Refer to individual Series

Project description:Goal: To define the digital transcriptome of three breast cancer subtypes (TNBC, Non-TNBC, and HER2-positive) using RNA-sequencing technology. To elucidate differentially expressed known and novel transcripts, alternatively spliced genes and differential isoforms and lastly expressed variants in our dataset. Method: Dr. Suzanne Fuqua (Baylor College of Medicine) provided the human breast cancer tissue RNA samples. All of the human samples were used in accordance with the IRB procedures of Baylor College of Medicine. The breast tumour types, TNBC, Non-TNBC and HER2-positive, were classified on the basis of immunohistochemical and RT-qPCR classification. Results: Comparative transcriptomic analyses elucidated differentially expressed transcripts between the three breast cancer groups, identifying several new modulators of breast cancer. We discovered subtype specific differentially spliced genes and splice isoforms not previously recognized in human transcriptome. Further, we showed that exon skip and intron retention are predominant splice events in breast cancer. In addition, we found that differential expression of primary transcripts and promoter switching are significantly deregulated in breast cancer compared to normal breast. We also report novel expressed variants, allelic prevalence and abundance, and coexpression with other variation, and splicing signatures. Additionally we describe novel SNPs and INDELs in cancer relevant genes with no prior reported association of point mutations with cancer mRNA profiles of 17 breast tumor samples of three different subtypes (TNBC, non-TNBC and HER2-positive) and normal human breast organoids (epithelium) samples (NBS) were sequenced using Illumina HiSeq.